Annual cummulative index volume 6, 1989

POLYMER

CONTENTS

Annual Cummulative Index Volume 6, 1989 The following subject index was obtained from principal key words and phrases for polymer and polymer-related titles contained in the Tables of Contents and Selected Titles sections. Each entry is followed by the location(s) where the indexed journal tide(s) may be found. The location is designated as the Polymer Contents page followed by the journal page (PCpg-Jpg). In rare cases for which two or three articles on the same PCpg have the same Jpg, the Jpg is followed by the letter U(upper), M(middle), or L(lower) to indicate the location on the PCpg where the referenced article may be found.

A

ablation, 558-1411,558-1530 accelerated testing, 419-131 accelerator, 368-124 AC-conductivity, 147-145 acenaphthylene, 212-540, 439-113 acetal copolymer, 287-241,338-5U, 521-87, 652 -SM N-acetate copolymerization, 156-2111 p-acetoxystyrenepolymerization, 614-121 acetylene functional derivative, 278-151 group, 478-85 polymerization, 225-91,230-721, 527-2829 transport, 685-492 (acetyl)(ethyl)cellulose, 407-2082, 407-2086 bis-(acetylphenoxyphenyl)-o-carborune polymers, 87-1525 acid-hase interaction, 686-607,394-217 acoustical, 298-654, 686-584 acoustic coatings, 299-717 dam.ping, 296-484 emtsston, 122-677, 348-27, 602-28, 652-27 impedance, 299-723 relaxation, 156-2122 scattering, 299-744 studies, 407-12 acoustic-ultrasonic transmission, 129-21 acrolein, 263-2283, 263-2429 acrylamide copolymer, 159-2505, 361-315, 595-681, 615-193, 616-338,616-340, 617-344, 624-281,663-1975, 685-522 copolymerization, 207-313,406-305, 521-185,719-879 crosslinking,38-793 graft,16-971,73-527, 345-2123, 361-251,523-539, 553-475 ionomer, 16-811 photopolymerization,418-361,473-2161 polyelectrolyte,157-2202 polymerization, 38-793, 84-127, 207-367, 359-726, 474-2179, 527-2685, 554-543, 617-346, 719-905, 725-3875 reaction,330-169 (2-acrylamido-2-methylpropyl)trimethyl ammonium chloride,615-193 acrylate copolymerization, 731-2063 liquid crystal, 144-19 polymer, 288-304

POLYMER CONTENTS

polymerization, 297-542, 297-558, 491-277, 732-2173 reactive adhesives, 339-103 resin, 334-145 acrylated, 18-3251. 295-247 acrylate-methacrylate copolymer, 131-1233 acrylates, 420-429 acrylic adhesive, 339-77U, 520-11,593-139, 686-588 block copolymer, 287-201 bone cement, 745-3725 cartier, 649-201 coating, 656-493 copolymer, 130-1063, 144-496, 259-7M, 649-191 fabric, 38-681 fiber, 65-541,439-264, 746-601 graft, 268-149 latex, 231-437 monomer, 88-1622, 353-725 oligomer, 89-1723 yam, 653-899 acrylic acid complex, 159-2551 copolymer, 270-1057, 617-377, 620-7 IU copolymerizatiou, 335-225, 344-1817, 406-305, 719-879 graft, 218-60, 262-2153,337-423, 523-503,547-1332, 598-137, 679-376 polymerization, 38-249, 165-97, 591-731, 731-2109 acrylic ester radical, 25-749 acrylic-viscose rayon, 166-97 acrylonitrile block copolymer, 58-539, 361-259 complex, 122-651 copolymer, 155-99, 156-2129, 287-168 copolymerization, 71-185, 140-52, 257-66, 348-183, 353-789, 590-605, 590-657,679-289, 680-559,713-445, 719 -879, 719-911, 732-2287 graft, 16-1027, 71-53, 131-1171, 165-87, 262-2099, 328-126, 725-433 polymerization, 34-1011, 58-558, 122-632, 122-667, 136-1065, 214-92, 362-136, 395-236, 401-487,692-3091 terpolymer, 372-191 acrylonitrile-butadiene copolymer composite, 532-389 monomer sequence, 588-429 vulcanized, 480-83 aerylonitrile-butadiene-styreneterpolymer blend, 19 I-9L, 214-83,304-358, 358-63,

763

416-538, 719-925 corona-charged, 71 4-552 degradation,72-343 flame retardant'291-534, 432-1323, 474-2239 flow properties,435-1663 glass-filled,214- I melt rheology,209-136 nonlinear viscoelasticity, 530-709 regrind, 423-330 shear strain, 665-19 tube, 437-1879 wavelength sensitivity, 266-1341 acrylonitrile-glycidyl methacrylate copolymer, 329-91 aerylonitrile-inden¢copolymer, 283-257 acrylonitrile-methyl methacrylate copolymer, 746-557 acrylonitrile-vinylidene chloride copolymer, 87-1143 aerylonrethane cure, 297-562 acryloyl chloride copolymer, 164-769, 400-431 p-acryloyloxy-tri-n-botyltin benzoate copolymerization, 396-59 2-acryloyloxyethyl diethyl phosphate copolymerization, 335-251 N-acryloyloxyphthalimide copolymerization, 713-445 acryloyl peptide, 14-1077 N-acryloyl,N-phenylthioureapolymerization, 668-143 acryl-type macromonorner, 536-2878 actin, 194-655,206-1006, 658-3638 active transport, 200-405, 732-2211 N-acylethylenimine copolymer, 723-5 acylphosphine oxide, 334-129 additives, 126-1U, 160-13,355-187,480-29 adhesion acid-base interaction, 686-607 biomaterial, 191-13U, 330-11U, 587-12U, 715-9U measurement' 425-555 adhesion-induced defonnatiom, 744-3574 adhesive applications, 686-593 bond, 686-574 bonding, 93 -49 bond strength, 621-15 elasticized, 605-731 hot melt, 19%1863 joint, 28-203, 82-381,339-83, 593-129, 593-155, 593 -171, 601-6U, 602-29, 605-736, 605-771,656-3, 692-3267

©1989 Elsevier Science Publishers Ltd.

pressure-sensitive, 420-443, 46%3097 properties, 129-13 radiation cure. 295-337 room temperature curing, 332-175 stress relaxation, 621-11 structural, 63-15 wood-bonding, 129-21 adsorbed polymer, 142-262, 142-276 adsorption conformation, 624-155 deposition kinetics, 744-79,744-93 and electron binding, 274-1458 fluorescence studies, 289-394 interaction parameter effect, 610-71 at interface, 231-371 kinetics, 534-2677 lattice model. 611-278 onto magnetic particles. 531-335, 531-341. 624-379 self-consistent field model. 142-266 at surface. 158-2430. 438-845 advanced structures. 289-352 aerogel, 692-3221 aerospace applications. 338-12L. 592-4L affinity chromatography. 9-514 affinity ligand. 258-249 agar-agar hydrogel. 268-123 agarose. 87-1125. 141-180. 272-1196. 464-289. 517-1345. 518-55. 721-265 aging. 22-3216, 26-225. 154-29. 154-44. 195-39, 431-1147 agricultural f'flm.428-896. 476-3.476-5 alanine copolymer, 540-1379 albumin, 290-476, 292-297, 589-587 alcohol separation, 413 - 1117 alginic acid, 346-1301 alkane, 270-1161,298-643 1-alkene, 79-2893, 359-756 alkenyldichlorosilane polymerization. 614-119 2-alkenyl-2-oxazoline polymerization. 15.627 4'-(alkoxycarbonyl)-2.5-distyrylpyrazine polymerization. 22-3134 alkyd coating. 301-371 N-alkylaniline polymerization, 657-3521 alkyl-aryl-p-phenylenediamine, 742-609 2-alkyl butadiene polymerization, 8%1544 alkyl cyanoacrylate polymer, 345-1967 alkyldiallylamine copolymer, 617-352 alkylene oxide polymerization, 287-243 alkyl isocyanate polymer, 598-3211 alkyl methacrylate, 478-79, 680-539, 685-471 N-alkyloxymaleimide, 287-248 N-alkylphenylmaleimide, 287-248 3-alkylpyrrole polymer, 208-103, 219-177 3-alkyhhiopyrrole polymerization. 219-183 alkyl trinitrate-polymer system. 151-324 bis(1-alkylvinyl)benzene polymerization. 662-1755. 662-1771 alkyl vinyl ether, 15-499,478-93 1-alkyl-4.vinylpyridiniumpolymerization. 614-123 1-alkyne. 207-377. 474-2305 allyl acetate diaddition, 24-2545 allyl alcohol polymerization, 366-281 aUylamide.266-1211. 585-401. 679-335 anylnadic-imide. 128-3L. 266-1301 alpha law. 165-15 aluminum hydrate, 232-641.232-649 amine-terminated. 548-1552 p-aminoacetophenone/substituted benzoic acid/formaldehyde resin. 586-29 amino acid. 292-251. 661-1727 2-amino-4-(amino-N-octadecyla~ilino)*6aminophenyl-1,3,5-triazine polycondensation, 21-831 6-aminodeoxycellulose, 616-336 amino-formaldehyde resin, 594-727 bis-aminoph~ylquinoxaline, 89-1767 amino-protecting groups, 353-697 p-aminostyrene copolymerization, 477-1007 2-amino-4-(substituted anilino)*6isopropenyl-l,3,5-triazine, 76-911 ammonium polyacrylate, 303-873 amphigel, 481-353

POLYM'ER CONTENTS

amphipathic monomer polymerization. 532-421 amphiphile. 12-806. 203.617. 261-97 amphiphilic. 258-71.734-1959. 736-311. 736-317 ampholytic polymer. 290-432 amylopectin. 340-91. 518-87 amylose. 24-3342. 142-341. 142-346. 143-351. 340-91.685-447 amylose-iodine complex, 76-945 N-(4-anilinephe.n.yl)-methacrylamide polymenzauon, 742-732 aniline polymerization, 287-228, 474.2385, 487-357, 490-351,657-3521. 688-905. 688-910 reactivity, 73-647 anion-exchanger, 35-155, 35-181,263-2417 anion-exchange resin, 91-293, 97-203 anisotropic fluid, 727-11071 annular die, 131- 1159 antenna effect, 728-3903 anthracene, 288-273, 295-264 anthracene-containing,71-203 (E,E)-[6.2[(9,10)anthracenophene-1,5-diene polymerization, 72-467 anthraquinone, 483-73 bis(9-anthrylmethyl) ether, 212-534 9-anthrylmethyl propiolate, 598-3201 antibacterial, 16-1O15,330-2L, 341-2837 antibiotic polymer, 723-119 anticancer, 723 -51 anti-infectious polymer, 291-97 antimicrobial, 29 I-91,587.6U antimisting agent, 682-57 antioxidant, 31-357,355-1,355-223, 396-37, 415-279, 416-381,681-658, 693-481,738-375 antiozonant, 415-341 antiplasticiation, 604-3480 antistatic modification, 93.613 antithrombie activity, 649-363 antitumor, 292-165, 662-1817, 723-97 apparel engineering, 484-199 aramid, 96-1209, 165-94, 261-115, 280-83, 300-810, 350-1766, 362-151,413-996, 553-499, 594.593,654-1053, 666-83 aramid-epoxy-aluminumhminate, 73%322, 73%328 artificial foot. 126-12 heart. 59-9U ligament. 330-3U muscle, 463-5 organ, 463-14U skin, 397-8U, 715-1L tendon, 516-11L arylacetylene polymerization, 160-2646 arylate, 79-2719. 619-579 arylene-kctone copolymer, 73-565 arylene vinylene copolymer, 413 - 1041 aryl(ether-carbonate) block, 614.117 aryl ether copolymer. 734-1969 aryl onitan salt polymerization, 683-190 aryloxy-S-triazine. 289-348 arylstyrene reactions. 140-55 l-aryl-2-trimethylsilylacetylene polymerization. 71-31 associating polymer, 273-1317, 289-383, 685 -518. 685 -539 association complex. 617-392 atomic oxygen. 31-325, 683-219 atomistic simulation, 613-30 atomization, 679-434 autohesion. 84-84 automotive applications, 300-827. 348-12. 429 -984, 740-1368 automotive plastic, 337-1,666-23 auxin-type polymer, 685-437 Avrami treatment. 23-3327 axisymmetric flow, 598-229,598-253 azeotrope, 540-1445 a~actone. 268-1781 azobenzene, 146-5, 604-3505 azo initiator. 477-1015 azemethine ether polymer. 618-513 azo polymer, 213-23.275-459, 275-469

764

B

bacterial copolyester, 204.694 bacterionhodopsin,213-59 Bagley correction, 301-65, 422-187 Banbury mixer, 43%1870, 553-701,672-1059 barrier material, 126-7M pigments, 35-219 polymer. 128-5U propeRies. 285-30, 593-11M recovery, 285-22 resin, 201-276. 285-26 basalt fiber, 358-68 battery, 128-10M. 223*639. 223-655, 223-663,289-428, 361-347, 602-23 benzenecarbonylchromiumcomplex, 134-1339 1,4-benzenedithio,216-111,528-247 benzene-naphthalene copolymer, 492-709 benzil, 337-375 benzobisthiazole polymer, 297-507, 297-512, 297-517,299-767 benzophenone initiator, 292-10 p-benzoquinone, 156-2136, 488-507, 678-171 benzothiazolimide, 73-733 benzoyl peroxide, 158-2371, 336-327 ~/-benzylL-glutamate N-carboxy anhydride polymerization. 406-269 benzylpropargylamine polymer. 746-161 BemouUi processes, 535-2788 beta relaxation, 729-4060 beverage bottle, 436-1802 biaxial orientation, 548-1558 bicyclic acetal polymerization, 539-1289 bicycloorthoester graft, 267-1675 bicylic oxalactampolymerization, 529-307 bilayer. 16-839, 134-1463.258-257, 371-387, 519-525,554-505 bile pigment-bonndpolymer, 745-771 bimodal network, 688-960 binding agent, 330-157 bioactive polymer. 291 - 1,292-275, 517-295, 589-595 bioadhesion, 463-14L bioadhesive, 289-350, 617-358 bioceramic. 191-10U biocompatibility, 9-13, 125-9, 191-12L, 259-13U, 330-1 IL, 432-1292, 610-25. 715-8L, 715-9U biocompatible, 15-555, 25%57 biodegradable, 190-13U, 191-11L, 290-453, 290-462, 290-498, 290-501,290-509, 291-511, 331-11,398-14M, 414-169, 432-1351, 432-1362, 545-31. 615-189, 649-400, 652-5U, 688*679 biodegradation, 290-494, 291.61 bioerodible, 290-449, 290-456, 290-460, 595-123 biological interaction, 290-505 biologically-active, 290-478 biomaterial, 290-447, 330-11U, 407-2029, 432-1272 biomedical application. 330-10L. 617-356, 682-94 material. 59-1. 125-1U polymer. 438-187 biommabrane. 200-353.257-21. 397-7. 491-219 biomonomer, 610-89 biopolymer. 365-433. 468-99. 516-1309. 516-1327 biopurification. 191-I IU bioresorbable. 258-155 biosensor. 200-281. 200-291.330-8U. 330-10U. 354-167. 515-2M. 686*653 biotedmology. 259-293 biphenylene group. 478-85 4-biphenyl mcthacrylate polymerization. 334-111 biphenylyl mesogen. 24.2647 bipolaron. 229.621 b/polarpolymer. 488-563 bipyridyl polycondensation. 685-457 Bird-DeAgular model, 265-209 birefringence. 29-2182. 69-245.75-297. 75-297. 76-937. 155-107. 158-2385. 230-689. 621-202. 680-539 ©1989 Elsevier Science Publishers Ltd.

bisazlactone polymers, 267-1515 bisimide resin, 268-133 bismaleimide, 19-521,71-245, 149-125, 281-131,293-88, 298-639, 302-17, 340-2587, 359-739,368-42, 425-568, 526-2509, 589-557I., 592-5U, 599-3465, 737-367 bismaleimide-diamine adduct, 96-231 bisnadimide, 340-2587, 340-2587 bisphenol-A co-condensation, 8-169 bisphenol-A carbonate oligomer, 619-571, 619-573 bisphenol polymer, 285-13 bistriazolinedione polymerization, 71-217 blend, 513 - 1 adsorption, 679-428 aging, 30-479, 281-137, 281-145U ATR-FTIR spectroscopy, 213-63 brittle-tough transition, 29-2170 Cahn-HiMard-Cooktheory, 658-3682 compatibilization, 274-1449, 536-2859 concentration dynamics, 538-3063 concentration fluctuation, 529-1675 conducting, 222-467, 286-145 copolymer, 327-75 coreactive, 513-1 crack growth, 673-1142 critical solution temperature, 360-888 crosslink, 23-3296 crystatlization, 166-115, 195-16, 513-101,611-267, 616-325 demixing, 17-1055, 438-803L design, 28-25 diffusion, 604-3452 dynamic mechanical properties, 420-305 electron microscopy, 278-191 enthalpy relaxation, 350-1761, 409-2312, 427-693 equation-of-state theories, 603-3395 excess volume, 548-1524 fdled, 87-1538 flow-induced miscibility, 67-421 fluorescence, 141-159 fracture toughness, 673-1142 free energy, 394-135 FTIR, 166-95, 340-2469, 475-223 gas sorption, 418-417 gas transport, 151-327,403-229 gel collapse, 274-1384 glass transition, 29-2235, 32-1355, 360-771,730-4112 heat of mixing, 164-1079 hydrogen bonding, 145-117, 203-570, 203-580, 203-586, 362-111,548-599, 603-3374 IGC, 394-108, 394-121, 471-175 impact-modified, 427 -702 impact propemes, 281-137 interaction, 91-866, 145-117, 23 1-245, 270-1057, 273-1289, 469-373,658-3649 interaction parameter, 143-414, 166-123, 197-1909, 211-386, 212-476, 277-661, 729-4051 interdiffusion, 289-392, 362-116 interface, 274-1449, 513-38 interfacial agent, 32-1392 intermolecular interaction, 417-609 interphase, 299-715, 616-280, 730-4098 inverse gas chromatography, 729-4062 irradiated, 483-49 light scattering, 278-179, 359-610, 471-147 local motions, 408-2157 mechanical properties, 269-775 melting point depression, 411-2547 malt theology, 426-593 microdomain, 79-2875 mierorheology, 417-593 miscibility, 143-374, 211-393, 547-1279 mixing, 336-317, 422-129 modifier, 436-1816 morphology, 285-28, 417-617 mutual diffusion coefficient, 464-247 NMR, 349-1618 nonradiative energy transfer, 600-1955 phase behavior, 471-147 phase diagram, 410-2482

POLYMER CONTENTS

phase dissolution, 609-1705, 667-1845 phase equilibrium, 86-1590, 430-1074 phase separation, 23-3296, 21 4.89, 277-115, 279-413,281-145U, 362-143, 658-3674, 726-2159 phase transition, 417-609 photocrosslinkin8,728-3898 physical aging, 409-2312, 427-693 processing,80-13,714-548 propoaies, 26-83 radiolysis, 334.71 relaxationprocesses, 83-3 theology, 273-1334, 429-1029 SANS, 143-414,205-940, 278-179 scauering, 518-469 semi-crystalline, 616-280, 616-282, 688-945, 730-4098 shear flow-induced miscibility, 78-3532 short range order, 366-357 simdation, 358-45 solid-state extrusion, 19-2499 solution, 34-949, 151-311,327-98, 462-314, 603-3399, 604-3508, 614-94, 614-112, 688-940 solvent barrier, 285-28 spin label characterization, 78-3454 spinodal decomposition, 153-45, 538-3089, 549-205,614-92, 677-8, 740-1426 star-core exclusion, 273-1250 stress relaxation, 538-3075 surface imaging, 366-353 ternary, 64-317, 86-1590, 304-358, 362-121,364-359, 430-1074 thermally stimulated current, 549-627 thermodynamics, 157-2259, 285-50, 394-108 thin film, 614-90 time-temperature superposition, 285-52, 547-1275 transesterification, 361-327 transition metal complexation, 685-466 uniaxially stretched, 609-1643 viscoelastic behavior, 32-1401 viscoelasticity, 209-171,351-1914 viscoelastic spectra, 285-39,538-3080 vulcanized, 420-234 X-ray fluorescence analysis, 611-222 X-ray scattering, 279-413 block copolymer ABCBA type, 663-1987 adsorption, 274-1454, 351-1931,736-324 amphiphilic, 206-1000, 345-2883 association, 351-1931 biodegradable, 744-466 blend, 8-127, 603-3388, 604-3443 chromatographic separation, 679-439 concentration dynamics, 538-3063 crosslinking, 360-793 fluorine-containing, 202-81,202-89 gas permeability, 275-1493 gelation, 274-1390 high strength, 527-2839 hydrophilic, 21-857 ionomeric, 288-281 iron complex, 89-1860 lamellae, 289-375 light scattering, 278-179 liquid crystal, 277-1 mtcellar structure, 84-170 micelle, 80-785, 619-561 microdomain, 142-244 microphase separation, 535-2849, 603-3380 model, 533-2557 nematogenie, 74-59 network, 514-353 nonlinear mechanical properties, 215-227, 215-244 order-disorder transition, 143-383, 535-2817 orientation, 533 -2581 polymer diffusion, 23-3266 radius of gyration, 351-1853 rigid rod, 288-281,535-2750 SANS, 278-179,289-370 SAXS, 54%1389

765

segmented dynamics, 410-2460 self-diffusion, 144-494 solution, 273-1238, 410-2457 star-branched, 535-2817 structure, 88-1678, 616-241 surface, 289-373,289-377 transport,285-59 bIood compatibility,123-115, 216-179, 292-281,438-147, 472-505,686-660 blowing agent,476-17 blow molded, 428-918, 428-922, 429-966 blow molding, 21-61,139-11,139-12, 139-16U, 271-36, 337-6, 428-902, 428-908,429-926, 429-931,429-934, 429-944, 429-954, 533-3, 592-7L, 734-37 blown film,21-54, 129-9M, 139-9L, 338-6U, 421-39, 436-1774, 473-8, 608-31 Boger fluid, 69-433 bone cement, 259-3U, 715-10U bone repair, 715-1U, 715-2U bovine serum albumin, 399-292 branched polymer, 159-2537, 619-560 branching, 419-17 Brillouin scattering, 152-369 brittle fracture, 438-1612 bromine flame retarding system, 291-526 bromobutyl robber, 150-105 bubble nucleation, 86-1616 Burchard-Stockmayer-Fixmanrelationship, 540-1453 butadiene blend, 417-586 block, 19-493 catalyst reaction, 603-3307 copolymer, 136-523,680-495 copolymerization, 27-337,256-60, 607-147,680-449, 724-3769 polymerization, 87-1544, 353-777, 472-405, 478-31,545-109, 591-801, 680-456, 685-476 robber, 130-987, 156-1983 butadiene-acrylonitrile copolymer, 84-107 butadiene-cyclosiloxane block, 327-116, 328-121 butadiene-nitrile robber, 395-285 butadiene-oxygen polymerization, 405-209 butadiene-styrene block, 413 - 1085 butadiene-styrene copolymer, 150-414, 160-17 butadiene-styrene copolymerization, 480-77 butadiene-styrene thermoplastic elastomer, 88-1622 1-butadienyloxytrimethylsilane, 34-1041 1-butene, 85-16, 276-559 butene-ethylene copolymer, 482-513 bmoxystyrene polymerization, 479-127 butyl acrylate eopolymerization, 71-193, 72-357, 353-789 graft eopolymerization, 470-1487 polymerization, 75-189,482-497 4-(t-butyldimethylsilyloxy)styrene eopolymerization, 527-2811 butyl elastomer, 474-2435, 742-623 butyl isocyanate, 266-1287 butyl itaconate polymerization, 526-2497 butyl methacryiate, 276-527, 482-489 butyl rubber, 31-9, 122-647, 124-69, 420-367, 131-1319, 612-145 di-n-butylstannyldimethacrylate,678-282 t-butylstyrene block, 60-1020, 549-220 t-butyl 4-vinylbenzoate, 536-2895 butyrolactone copolymer, 333-15 copolymerization, 660-1553 polymer, 212-519 polymerization, 617-400

C

cable, 673-1159 calcium carboxymethylcellulose, 64-365 anti-cancer, 287-235

ca~ry

romatography, 469-115 flow, 739-1232

©1989 Elsevier Science Publishers Ltd.

fractionation, 687-850, 687-855, 687-860 rheometcr, 431-1197 viscometer, 301-65 caprolactam complex, 159-2551 oxidation, 124-181 polymerization, 676-2909, 679-309 caprolactone copolymer, 136-523 copolymerization, 73-639 diblock, 410-2446 polymerization, 151-338, 156-2017, 158-2339. 681-615 caprolactone-allyl glycidyl ether copolymer, 296.468 captodative monomer, 287-239 carbazole chromophore, 208-79 carbazolylalkyl group, 660-1537 carbazolyl group, 24-2601 4,4'-carbo(4,4'-bismaleimido phenoxy)diphenyl silane, 330.217 carbodiimide, 361-309 carbonate copolymerization, 25-739 carbon black composite, 493-259 dynamic mechanical properties, 86-1628 graft, 17-1147, 17-1159, 267-1701, 596-731 model compound, 470-1475 in polymenzation, 610-55 reinforcement, 368-143 rubber interaction, 420-357 in UV protection, 83-29 carbon dioxide permeation, 199-37 sorption, 137-643,418-417 carbon disulfide cupolymcrization, 719-935 carbon fiber adhesion, 38-1042 carbon composite, 257-33 composite, 37-145, 37-247 compressibility, 433-1408 contact angle, 651-702 electrocoating, 359-628 graft, 555-201U high-performance, 217-3L PAN precursor, 746-557 permeability, 433-1408 frompitch-poly(vinyl chloride), 624-278 1 plasma-treated, 394-203 strength, 356-450 structure, 279-363 surface, 333-353,394-168 surface-treated, 363-122 tensile strength, 745-3504 tissue reaction, 303-105 tough composite, 718-1 yam, 127-6M carbon/graphite fiber, 363-109 carhonyl-olefin exchange, 541 - 1483 carborane siloxane, 683-219 carboxylated polymer, 395-233 carhoxyl group, 145-165 carboxyl polymer, 531-335 carhoxymcthylcellulose, 143-364, 143-367, 328-132, 332-226, 332-230, 396-69, 397-175, 399-349, 464-233, 550-254 1- [(4-carboxyphenyl)methyl]tetrahydrothiophenium hydroxide, 349-1522 cardo polyamide-imide, 615-148 cardopolyimide, 266-1419 carotenoid hydrosol, 258-139 carrageenan, 350-1636, 359-693, 728-3919 carrier-mediated transport, 200-47 cartier transport, 229-557 Case II transport, 232-439, 424-400 casein, 131-1311,161-116, 345-2123 catalyst compatibility, 721-1211 stereospecific, 135-897 superactivc, 135-897 syndiotactic specific, 141-104 catenane, 549-655 catenapoly(diphenyl phosphazene), 145-191 catheter, 59-13, 125-6M, 587-2L, 650-14M,

POLYMER CONTENTS

715-5U cathode material, 746-129 cathodic dectrodeposition, 35-255 cation-exchange membrane, 165-1097 cation-exchange, 159-2580, 163-53, 439-545, 529-331,654-273,679-371 cationic photoinitiator, 292-22 ceiling temperature, 334-117 cell adhesion, 2.58-179 cellular filler, 605-726 cellulose amorphous, 342-115 analog, 528-3083 anion exchange, 522-313 blend, 144-502, 157-2156, 366-347, 411-2547, 736-265 cadoxen-water system, 462-297 carboxymethylated, 330-195 cholestric structure, 11-1999 coagulation, 529-1699 derivative, 258-131,345-2083, 618-456, 725-3817 from coconut, 395-292 composite, 434-1516 crystal, 730-4130 crystallinity, 151-237 O-dimethylaminoalkylderivatives, 257-71 dispersion, 231.464 dye diffusion, 262-2141 fiber, 66-751,165-49, 363-103,558-273, 693-501 fdm, 64-365 graft, 15-705, 286-105, 395-251, 523-503,610-1751 hydrate, 158-2378 hydrogel, 89-1833 hydrolysis, 125-1L, 131-1373, 263-2371, 345-1863, 539-1263 infrared spectroscopy, 585-418 liquid crystal, 475-1477, 477-1037 membrane, 84-182, 370-159, 468-3357, 468-3399, 610-1751 mesuphasc, 121-156, 121-184 methyl acrylate graft, 470-1633 molecular weight, 263-2331,467-3291 NMR, 86-1091 oxidation, 594-619, 653-849 polymorph, 538-3168 reactive dye, 689-399 regioselective reduction, 24-3342 solution, 89-1756, 122-710, 463-351, 557-299 with sulfonic acid group, 468-3399 supermolccular structure, 328-170 thermal decomposition, 467-3305 thermal degradation, 746-331 thermogravimetric analysis, 467-3305 for thin layer chromatography, 80-797 tosylation, 615-191 tricarbanilate, 467-3291,477-1037 vinyl-grafted, 84-182 cellulose acetate cholestric structure, 11-1999 latex, 64-173 membrane, 163-2781, 231-303,264-197, 344-39. 369-95 production, 130-1009 cellulose-containing, 64-233 cellulose ester, 612-101,738-221 cellulose ether, 746-584 cellulose-glucopyranose, 162-8 cellulose nitrate, 522-219, 549-217, 600-393, 648-91,675-2744, 676.2805 cellulose thiophosphate, 746-331 cellulose triacetate, 32.43, 86.1091, 121-184, 200.47, 212-570, 552-345, 678-221 cellulose xanthate, 675-2713 cellulosic fiber, 559-484 f'dm, 625-925 material, 131-1253 membrane, 686.660 mesophase, 121-142 paper, 357-24, 358-53 polymer, 121-297 cell wall, 137-233

766

cement, 492-632, 533-23,693-3353 ceramic, 92-8, 92-27, 191-12M, 614-125, " 615-146, 615-227 ceramic-polymer composite, 492-673 ceramic precursor, 299-771,371-1177, 439-1707, 559-159 chain collapse, 163-2095 chain dynamics, 614-45 chain-folded, 537-3038 chain scission, 70-125, 719-917 chain statistics, 535-2746 chain stiffness, 141-135, 143-472 chain transfer agent, 19-501,155-103 chalcogenide-containing, 746-137 characterization, 194-1,328-186, 491-214 charge carrier, 161-88, 161-93, 161-109 charge storage, 221-399, 536-2917 charge-transfer, 89-1792, 90.1917, 134-1349, 204-729, 223-675, 400-435, 479-219, 657-3530, 659-3768, 660-1537 charge transport, 161-97, 222-553, 486-277, 487-409, 492-25, 623-109 chelate ionite, 278-233 chelating, 134-1407, 299-705 chelation, 409-2363 chemical imaging, 366.353 chemically amplified resist, 294-137 chemical release, 72-487 chemiluminescence, 599-3285, 612-151 chemorheology, 129-889, 606-13, 606-77 chiral cavities, 731-2031 chirality, 617-414, 618-427 chiral, 121-255, 123-35, 135-929, 617-410, 732-2269, 737-339 chiroptical, 617-404 chitin, 134-1427, 213-13, 594-233, 594-253, 650.205, 725-3817, 732-2279 chitosan, 11-249, 86-1083, 162-22, 290-509, 291-45, 292-297, 337-379, 342-3011,468-3375, 468-3385, 476-951,594-249, 606.43,617-365, 650-221,653-997, 662-1817, 663-339, 677-49, 681-607, 718-293,718-307, 732-2279 chloramphenicol polymer, 16-1015 chlorine, 281-183U, 361-281 1-cldoro-l-alkyne polymerization, 659-3804 2-chloroaniline polymerization, 487-343 chlorobutyl rubber, 368-42 chloromethyl group, 332-193 3,3 -bis(chloromethyl)oxetanc copolymerization, 596-731 chloromethylstyrene copolymcr, 591-701 chlorophenol-furfural resin, 130-925 chloropolyester, 548-1488 chloroprene silylation, 361-335 chlorosiloxane hydrolysis, 27-339 cholesterie, 158-2364, 278-113 cholesterol, 730-4140 cholesterol-containing, 8% 1505 chromatography, 371-961,677-1 chromium catalyst, 602-3244 chromophore, 142-315 chymotrypsin, 660.1531 cinnamic acid, 540-1369, 661-1681 cinnamoyl group, 664-391 cloud point, 491-39 cluster dispersion, 161-575 coal, 394-290 coat-hanger die, 33-1517, 672-1066 coating, 491-33 adhesion, 744-3626 characterization, 301-321,683-124, 683-132 chlorendic anhydride-containing, 294-243 elastomeric, 608-210 fire retardant, 465-6M laser drilling, 95-6819 low emission, 301-15, 301-27 low temperature, 293-104 microscopy, 683-137 numerical simulation, 727-8 optically dear, 338-5M ,photooxidation, 615-144 plasma-polymerized, 468-3413 protective, 35-219

©1989 Elsevier Science Publishers Ltd.

radiation.cured, 293-104. 294-238 thermal analysis. 431-1191 thickness control, 271-12 thin. 476-21 ultraviolet curable. 673-1165 UV.curable. 295-247 UV-cured, 295-349 viscoelastic. 232-73 weathering. 620-107 cobalt acrylate polymerization. 713-442 cobalt-porphyrin complex. 134-1327 cobalt-porphyrin -containing. 266-1439 coextrusion. 201-276. 422-206. 428-902. 672-1004. 672-1010 coil-globule transition. 156.2039 coil-stretch transition. 53%3004. 736.327 collagen. 10-1749.155-107. 292-313. 438-156. 517-1367. 588-1573. 730-4121 colloidal dispersion. 121-312 colloid surface. 31-365 colorant, 128-5M. 421-18 coloration. 211-41 coloring. 150-431 color measurement, 421-10 comb-like polymer. 30-352. 87-1552. 278-113.477-1069.618-469. 726-2337 commodity polymer. 26-237 compensation law. 687-767 compen.sationphenomena, 687-753.687-760 composite abrasion. 395-129 acousticelastic. 198-58 acoustic emission. 66.1170, 399-215, 400-13 acoustic microscopy. 430-1127 adhesion stress. 85-382 adhesive bending. 740-1325 autoclave system. 419-101 binder. 280-373 biomedical. 16-847 brittle matrix, 624-2815 buckling. 196.113 as building material. 419-55 carbon fiber prepreg, 85-389 carbon-reinforced. 298-680 cementitious. 400-265 ceramic. 430-1066 chopped fiber. 433-1480. 611-249 elose-packed. 693-3416 compression test. 524-41 compressive failure. 469-479 computer-aided design, 719-67 conductive. 164-102, 371-1309 consolidation. 621-35 constitutive equation. 520-273 continuous fiber. 434-1505 correlation function. 357-566 corrosion resistant. 92-1 crack resistance. 279-340. 544-633 crack velocity. 520-389 creep, 231-85 crossed reinforcement. 544-644 cross-ply. 14-1045, 196-145 cure. 284-290. 302-11. 433-1471. 434-1527, 434-1530. 693-469 cylindrical. 5444563 damage. 13-435.37-165, 60-335.403-326. 434-1577. 437-1884. 719 - 105,744-291 damping. 60-321, 198-92 deformation. 605-789 delamination. 13-257, 38-3778, 66-1141, 96-1362, 195-1L. 198-133.201-2. 261-227, 264-15. 333-365, 357-487. 368-51. 371-1406. 399-249. 400-275. 520-219. 544-622. 745-87 design, 61-77 dielectric cure, 368-35 dynamic mechanical. 434-1505, 652-77 elastic-longitudinal modulus. 232-395 elastomer. 611-256 electrically conductive, 470-1557 electroconductive, 553-499, 745-1 energy dissipation, 279-332 environmentaldfects, 416-361 epoxy-based, 672-973 expert system, 465-4U

POLYMER CONTENTS

failure,544-585, 719-105, 737-285 fatigue, 13-443, 270-150, 519-317, 544-638, 652-45 ferrcelectric,37-5092 fiber degradation. 61-65 fiber interface. 90-405. 195-35 fiber-matrix adhesion. 394-217 fiber-matrix interface. 745-3616 fiber orientation. 150-79. 423-253. 742-9 fiber pullout, 734-43 fdament pullout, 264-23 filament-wound, 399-234. 404-212. 718-21 fdler bond, 677-80 filler interaction. 693-1040 filler surface, 551 - 194 flexible, 14-1004, 303-761 flow processes, 61-2 fly ash-filled, 60-271 flywheel, 198-2, 544-688, 544-695 foam, 616-258 fraaography, 164-167 fracture, 439-576, 665-24, 737-305 functional, 288-342 glass fiber-wonnd, 605-782 glass-filled, 204-706 glass mat-reinforced, 434-1555, 434-1560 graphite fiber, 217-27 heat propagation, 280-388 high performance, 348-20, 622-38 hybrid, 38-3732, 164-227, 333-305, 434-1501, 434-1519. 434-1552, 624-331 hydrophilic-hydrophobic, 19-529 hydrothermal effect, 202-40 image analysis, 434-1542 impact, 399-209. 405-270, 430-1063, 438-39 industrial development, 195-53 industry. 358-46 injection molding, 423-240, 656-39 in-situ. 436-1708 interface. 265-197, 719-133 interfacial adhesion, 363-122. 434-1513 interfacial interaction. 611-215 interfacial shear strength. 333-289. 611-226 intedaminar failure. 232-125 interlaminar fracture. 196-129. 399-257. 651-423. 737-293 interlaminar shear modulus. 264-264 interlaminar stress. 262-259.738-374 interphase-modified. 550-162 interply failure, 279-295 interweaving, 357-516 ionic conductive, 745-1 joining, 92-11,424-442 joint, 27-395, 91-794, 129-33,348-32 laminated plate, 744-243 laser-induced damage, 14-1026 laser pulse, 544-659 linear thermal expansion, 605-758 liquid crystal, 399-223 long fiber-reinforced, 428-891, 434-1508, 550-145 long term strength, 665-13 maleic anhydride modification, 27-382 market, 271-3 matrix, 164-234, 517-303 mechanical fastening, 740-1332 mechanical properties, 434-1549 mechanics, 264-3 in medical devices, 330-9L metal, 264-31,413-972 metal-based clusters, 684-349 metal-filled, 214-52 metal matrix, 13-295 metal polymer, 528-2963, 528-2995, 528-3015 mica, 38-1021 microdelamination, 164-116 microsandwich honeycomb, 368-43 microyield, 164-165 model, 437-1887, 559-2555 molecular, 286-151,300-861 molecular motion, 136.503 non-destructivee testing, 719-49

767

nonlinear modulus, 164-146 nonlinear stress-strain behavior, 519-349 open hole stress, 270-133 oriented fiber, 605-751 particulate. 164-298. 532-397. 559-2454.741-302 photoelasticity. 198-42 piezoelectric,665-54 plasticresponse, 263-232 Poisson's ratio,524-53 polymer-polymer, 82-411 porous, 439-I 809 post-impact characterization,622-55 prepreg, 369-55, 622-38 process analysis. 430-1092 processing. 363-98. 433-1408 radiation-curable. 434-1546 radiation durability. 58-224 radiation effects. 217-27 Raman microscopy. 194-17 randomly reinforced, 356-461 relaxation. 665-68 residual stress. 524-47 resin flow. 61-9 resin impregnation. 624-317 resin shrinkage. 164-116 rheology. 20-751 rotational compatibility, 261-167 rubber-modified, 37-3421 mbberwood. 232-197. 232-205 shear failure, 263-251 shear flow. 61-28.61-43 shell, 66-1102, 66-1116. 280-393. 605-804, 605-822 short-fiber,13-241,198-32, 214-28, 232-220, 363-78, 363-84, 363-I 17 in situprecipitation,95-3801 size effect,264-35 skin-core effects.429-1020 for s~ce, 592-9U specificheat, 164-1067 spectroscopy, 75-337 strength,264-280, 403-337 stress. 608-208 stress analysis. 737-270 stress concentration. 60-303.438-1559 stress distribution. 274-1474 stress transfer. 8-199. 60-281. 439-1835 struaural. 211-37.217-33 structural integrity. 621-21 surface cracks, 371-1406 swelling. 216-268 textile. 286-165 thermal defonnation. 279-279 thermal expansion, 161-608. 279-316. 403-370, 665-61 thermal expansitivity. 741-302 thermal stress. 85-382 thermoforming, 433 - 1465 thermomechanical analysis. 371-309 thermomechanically resistant, 368-3 thermoplastic. 61-28.61-33.61-38. 368-9U. 368-29. 433-1450, 435-1642, 520-235.611-261L, 619-546. 689-15. 689-22. 689-39. 737-313, 742-38 thin-layer. 358-51U three dimensionally-reinforced, 545-136 time-temperature-superposition. 430-1111 tooling. 13-481 toughening. 28-33 toughness, 164-234 transfer molded. 550-184 transverse cracking. 652-27 transverse flow, 61-38 transverse stress, 544-680 tube, 261-125L ultrasonic characterization, 122-691 unidirectional, 20-582, 404-232, 438-27, 652-7 viscoelastic behavior, 196-163 viscoelastic properties, 279-326 wave propagation, 199-195 wear, 257-41 welding, 425-507 wet-reinforced, 651-467 winding, 357-510

©1989 Elsevier Science Publishers Ltd.

wood, 197-1777, 520-257 wood cellulose, 363-69 Young's modulus, 609-1656, 609-1663 compositional inhomogeneity, 676-2890 compounding., 211-27, 422-191 compression nnpregnation, 348-24 compression mold, 672-1027 computational chemistry, 583-262 computer-aidod design, 434-1592, 608-200 computer applications, 358-27 computer integration, 682-22 computer modelling, 613-1 computer searching, 160-2680 computer simulation, 12-871,613-9, 614-57 concanavalin A, 62-337 concentration polarization, 68-173 concentric cylinder viscometry, 531-745 concrete, 13-453,401-1 conducting coordination oligomer, 349-1517 matrix, 220-225 phase, 744-2391 polymer, 38-153, 72-447, 76-443, 142-304, 146-1L, 165-I, 208-103, 218-27, 218-37, 219-103. 219-113,219-145, 220-257, 220-269, 221-399, 221-407, 222-487, 222-501,222-507, 223-599, 223.669, 224-753,224-769, 224-775, 224-815, 225-871,226-203,227-359, 228-501,229-575, 231-270, 286-144, 286-157, 334-125, 345-1891, 405-245, 409-2244, 486-265, 489-209, 493-123, 493-603, 536-2917, 745-765 properties, 372-27 textile, 224-823 conductive compound, 424-390 fdler, 424-415 material, 220-199 paint, 424-404 polymer, 128-4U, 129-9U, 197-1921, 219-165, 223-655, 224-849, 288-330, 424-386, 486-169, 489-159, 613-3, 688-969 powder, 472-593 conductivity, 158-2282, 165-89, 354-865 conductor-dopedpolymer, 372-4 1 cone-and-plate, 76-69 configurauonal disorder, 667-1791 ccxlformation.80-1, 156.2031, 156-2066, 159-2537, 289-379 conformational energy, 613-3 confonnational properties, 613-7 conformation control, 618-433 conjugated oligomer, 223-723 conjugated polymer, 221-323, 221-385, 222-565, 223-705, 228-457, 228-463, 229-507, 229-521,229-543,230-645, 230-669, 230-689, 602-3256, 690-181, 690-281,735-1997, 742-28 constitutive equation, 68-37, 69-21, 137-367, 483-190, 526.157, 621-246, 726-1047 constitutive melt, 301-4 constitutive model, 265-179 constitutive relation, 137-233 constraint release, 285-65 contact lens, 125-4L, 190-11U, 191-9U, 715-4U continuous reactor, 589-433, 609-1733, 609-1742 contraction flow, 473-39 controlleddrug delivery,290-444 controlledrelease,37-15, 67-I, 67-27, 67-43, 67-55, 67-55, 67-67, 97-275, 163-174, 290-447, 290-453,290-456, 290-484, 290-486, 290-488, 397-21 I, 516-10, 523-441,664-431 converging flow rhcometer, 621-215 coordinationpolymer, 396-83 copoly(esterether),547-1342 copoly(esterimide),360-936 copolyacrylate,659-3799 copolyamide, 266-1175, 268-1775, 680-552 copolyamide-formic acid-glycerol,158-2315 copolyarylate,540-1413 copolycarbonate,482-483

POLYMER CON~rEb~'S

copolycondensation, 58-545 copolyester amorphous, 130-1019 aromatic. 141-93, 618-505 bacterial, 204-694 blend, 154-85, 215-244 1,4-cyclohexanedimethanol-based, 673-1103 dynamic mechanical properties, 84-58 fiber, 439-1683 liquid crystal, 152-525, 269-819, 436-1720, 600-369, 601-2117, 618-481, 619-550, 674-615, 676-2800 mass spectrometry,664-411 microstmcture, 677-36 nematic, 541-243 with photolabileunit,151-297 thermotropic,277-25, 360-780, 413-I 105, 548-585 unsaturated, 654-1037 copoly(ester-amide), 18-3269, 333-9, 418-409, 622-350 copoly(ester-carbonate),618-467 copolyether, 618-452, 618-487 copolyetheramide, 197-1863 copoly(ether-estcr), 430-1124, 667-1836 copolyimide, 267-1481 copolyimidine, 77-3372 copoly(imidine-imide),206-989 copolymer adsorption, 408-2199, 408-2204 amphiphilic, 617-342 biodegradable, 290-462 blend, 208-419, 277-115, 299-792, 477-1103,604-3498, 657-3578, 658-3649 characterization, 78-3446. 194-31, 203-623,203-627, 468-1,471-125 composition, 135-817 compositional heterogeneity, 471-125 crystallization, 616-320 eutectoid, 279-393 glass transition, 274-1380 heterogeneous, 288-315 ion-pair, 288-279 latex, 744.63 low molecular weight, 669-317 mass spectroscopy, 288-341 mesophase, 437-1862, 558-1267 ase purity, 616.243 NS, 95-1963 solution, 596.903,730-4119 water-soluble, 616-327 by zwitterion, 213-39 copolymerization alternating, 528-253 cationic, 478-71 control, 470-1515 emulsion, 130-947, 130-1029, 341-2727 graft, 467-3177, 476-915 of macromonomer, 418-377 model, 140-52, 204-770, 272-1145 penultimate effects, 153-36 radical, 523 -529, 677-136 reactivity ratio, 591-713, 591-719 reactor, 491-891 reversible, 733 -435 semibatch, 132-1429 solid phase graft, 360-933 theory, 279-371 Ziegler-Natta, 151-280 copolypeptide, 353-81 I, 366-295 copolyurea, 337-427 core-shell, 549-209, 667 - 1913 corneal implant, 330-4L cornea replacement, 191-8 corona charging, 148-265, 148-331 corona discharge, 131-1183, 150-417, 395-282 corresponding states, 211-393 cotton, 130-1051, 197-1739. 257-68, 262-2191. 522-207, 559-464. 613-439 Couette flow, 76-15 Couctte rheometer, 301-61 coupling agent, 28-215, 34-1572, 66.751, 85-419, 130-1089, 336-267, 407-2040. 433-1375. 434-1491, 654-1053

768

crock growth, 358-63, 420-219 crack propagation, 368-98 craze in annealed polymers, 357-18 formation, 589-557U growth, 346-1273 healing,37 l-1399 initiation, 95-3927 mechanism, 371-1399 microstmcture, 538-3162 stress field, 364-426 structure, 150-423 toughening, 206-1002 yielding, 95-4091 crazing, 26-207, 371-1399, 609-1651, 665-1 creep, 15-346, 405-579 creeping flow, 69-381 cross-flow f'dtration, 344-69 cross fractionation, 360-918 crosslink density, 735-2060 crosslinked, 206-948, 329-69, 367-373, 514-245, 657-3561 crosslinking, 79-2703, 202-69, 275-1486, 287-237, 352-1982, 719-917 crossover, 91-812, 483-166 crown ether, 202-121,729-3969 crown membrane, 346-209, 558-1618 crown polymer, 610-33,618-444 crystal-amorphons interphase, 604-3458 crystalline polymer amorphous domain, 616-273, 659-3810 fracture, 356-444 mechanical properties, 298-643 oriented, 616-301 SANS, 661-1623 SAXS, 609-1582 simulation, 614-55 structure, 616-267 TEM, 693-1023 crystallization chain folding, 616-288 Hoffman-Miller theory, 604-3501 kinetics, 74-1L, 616-286 lattice incompatible, 161- 161 long period, 657-3581 from melt, 157-2189 morphology, 616-307 nucleation theory, 604-3502 rate, 86-1612 regimes, 616-284 SANS, 298-642 secondary, 677-88 shear-induced, 125-1087 synchrotron scattering, 616-291 temperature, 212-489 theory, 616-290 thickness distribution, 616-293 topological structure, 616-277 twist disclination, 151-265 crystallographic defects, 614-59 crystal structure, 614-49 cubic-lattice, 614-63 cure, 284-285, 428-834, 434-1523 Curie transition, 137-709, 143-444 cyanoacrylate, 527-2871, 660-1613 (cyanoethyl)(hydroxypropyl)cellulose, 22-3179 2-cyano-2-propyl methyl ketene acetal polymerization, 346-197 cyclic carbonate polymerization, 478-9 cyclic diene polymerization, 124-109 cyclic oligomer, 619-581 cyclization, 538-3177, 540-1333, 613-19 cycloalkane, 79-2797, 276-515,609-1596 cyclobutene-containing, 293-93 cyclodextrin, 8-205, 332-183, 346-191, 471-373,675-665, 728-3936 cyclodimethylsiloxane,478-15 cyclodipeptida,192-149 cyclchexane, 25-78 I. 540-1319 cyclohexanone-formaldchyde resin,329-129 endo-N-cyclohexylbicyclo[2,2,1]hept-2-ene5,6.dicarboximide, 366-287 cyclohexyl isocyanate,266-1287 N-cyclohexylmaleimide, 408-2219 cyclohexyl melhacrylate,197-1993, 232-219

©1989 Elsevler Science Publishers Ltd.

cyclolinopeptide, 193-371,193-513, 193-573 cycloparaff'm,354-837 cyclopemadiene copolymerization, 354-157 cyclopolymer, 617 -352 cyclotetrapeptide, 192-161 cyclotriphosphazene monorner, 349-1530

D

Dacron, 303-75, 438-147, 649-425,744-441, 744-441 damping, 297-497, 297-584, 298-664, 298-674, 726-2251 database, 407-28, 436-1784, 727-34 decabromodiphenyl oxide, 291-536 dechlorination, 90-1961 deflection temperature, 533-26 deformation, 299-739, 667-1824, 667-1829 degradable plastic, 407-2029 degradation, 333 - 1,540-1389, 649 -387 degree of polymerization, 586-1 delayed release, 558-75 dendrimer, 286-115,286-119,286-121 dental bonding, 259-7U dental composite, 232-165,432-1287 dental material, 9-14, 59-14, 62-1181, 331-12U, 587-12L, 650-14L, 715-3U, 715-10L, 744-494 depolarization, 94-281 design integrated manufacturing, 432-1311 denterated, 661-1623, 733-2353 deuterating agent, 411-2538 devolatilization, 422-146, 422-150, 423-257, 669-782 dextran, 11-287, 63-366, 134-311, 262-2087, 273-1325, 336-281, 361-309, 554-559, 597-17, 661-1671, 664-431 dextrin, 36-558,733-447 dextrose, 344-31 diacetylene, 18-3229, 230-705, 278-131, 278-141,278-165, 345-1853, 413-1004, 599-3327, diacetylenic-butadiene-acrylicacid block copolymer, 610-21 diacetylenic, 482-453,686-675 diacrylate-2,4-hexadiyne, 406-313,406-319 diagnostic applications, 258-201 diallylammonium salt, 713-435 diallyldimethylammonium chloride, 124-1, 595-681 diadlyloxydiethylene diearbonate, 663-1945 diallyl phthalate, 135-839, 212-514 diallyl sebacate polymer, 90-1954 diallyl terephthalate, 159-2530, 335-207 dialysis, 132-1465. 257-57 dianhydrydrohexapyranose, 680-481 diarylphenolpolymerization, 135-873 diblock copolymer, 205-908 dibromoxylene polymerization, 74-33 1,2-dicarbomethoxy-3-vinylcyclobutane polymerization, 529-333 1,3-(dicarboxymethoxy)benzene,722-1357 3,4-dichloroisoproterenol,335-177 2,4-dichloropentane conformation, 543-321 2,4-dicyenobut-1-erie, 528 -2907, 591-737 7,8-dicyano-7,8-diphenylquinodimethane, 289-346, 345-1957 2,4-dicyancetyrene polymerization, 140-38 N,N-didodecyl-N-methyl-N-ethylmethacrylate ammonium chloride, 332-161 die design, 21-17, 69-37 die entry, 61-57 dielectric, 261-125U, 435d656, 535-2833, 547-1314 Diels-Alder reaction, 152-360 diene, 28-221,156-2060 die swell, 131-1159, 214-1 [2-(diethylamino)ethyl]dextran, 25-727 diethyl fumarate copolymerization, 337-375 diethyl 2-vinylcyclopropane-l,l-dicarboxylate polymerizatton, 275 - 1505 1,4-diethynlbenzonepolymer, 216-111 diethynylbenze~epolymer, 372-27 diethynyldiphenylmetbane, 529-1611 diethynylpyridine polymer, 372-27 differential scanning calorimetry, 96-201,

POLYMER CONTENTS

164-1085.427-734, 427-778 diffusion barrier, 97-275 Case II, 74-55 coefficient, 276-549 in crystalline polymers, 75-175 in IGC, 393-87 free volume model, 67-101 NMR imaging, 682-16 Pace-Datyner theory, 529-1663 in porous media, 615-209 processes, 139-38 m random media, 351-1941 stress-driven, 13%589 and unoccupied space, 685-481 diffusive behavior, 614-47 difuryl-containing monomer, 62-1167 diglycidyl ether polymer, 159-2518 dihydrobenzodipyrrole,207-405 dihydrofuran, 136-85, 724-3733 1,1'-dihydroxy-ethy1-2,2'-biimidazole copolymer, 470-1543 dihydroxy(metallo)phthalocyanine,600-355 2,3-dihydroxypropylccllulosc, 16-955, 16-971 diimide compounds, 329-81 2,2'-diiodobiphenyl-4,4'-dicarbonyl dichloride, 207-297 diisocyanatocster polyaddition, 276-631 dilation, 270-1173 dilatometer, 198-2041 dimethacrylate, 534-2622, 591-785 dimethylacrylamide, 80-813,420-42 I, 586-43, 722-1295 2-dimethylaminoethyl mcthacrylate copolymer, 71 - 1 dimethyl itaconate copolymer, 122-654 dimethyl 2-methyl-1,3-butadienethiophosphate copolymer, 159-2605 dimethylsiloxane, 143-418, 615-229, 667-1800 dimethylsiloxane-phenylsilsesquioxane block copolymer, 159-2596 N,N'-bis(dimethylsilyl)tetramethylcyclodisilazene polymerization, 596-743 dimethyl terophthalate, 692-1445 1~2-dimethyl-5-vinylpyridinium methyl sulfate copolymer, 159-2505 diolef'mpolymerization, 405-215 1,3 -dioxepane, 713-430, 733-435 1,5-dioxepan-2-one,727-3838, 728-3842 1,3-dioxolane,216-185, 608-186, 733-435 diphenyl disulfide, 730-4138 2,3-diphenyl-4-methylene-1,3-dioxolane, 74-1 U, 346-2135 diphenyloctatetrayne,268-167 dipolar polymer, 688-936 dipole moment, 23-3320, 658-3694 diproparglycarbinol, 725-443 dispersion, 27-373 dissipative heating, 544-595 dissolution, 165-221 dithiafulvene(1,3-dithiole), 135-971 dithiine nickd complex, 156-2098 divinylbenzene, 157-2218, 680-449 divinyl ether, 296-453, 539-1269, 675-649, 682-86 divinylvanadocene polymerization, 685-462 DNA, 10-1711, 10-1795, 10-1839, 10-1859, 11-1917, 11-1953, 11-2005, 62-322, 87-1135, 143-438, 161-192, 193-531, 193-549, 194-605, 194-667, 196-9, 196-33, 196-39,259-741,260-851, 260-873,331-929, 331-975, 331-1019, 351-1780, 398-1043, 409-2348, 466-165, 466-172, 472-455, 479-207, 516-1189, 516-1195, 516-1223, 516-1339, 517-1383, 517-1413, 517-1429, 517-1449, 517-1491, 587-1497, 587-1505, 587-1541, 594-236. 594-241, (303-3292, 716-1653, 716-1695, 716-1745, 716-1781. 716-1793, 716-1827, 717-1841,717-1939, 721-273, 721-314 dodecalactem polymerization, 679-309 dodecapeptide, 193-333 3-dodecylthiophene polymerization, 623-29

769

Doi-Edwards theory, 91-812, 483-166 doped polymer, 153-40, 165-75 doping agent, 286-144 drag effectiveness, 341-2933 drag reducing, 682-57 drag reduction, 36-518, 161-617, 201-59, 329-1U, 616-256, 682-47 draining thin film, 473-79 drapability, 622-354 drawing, 197-1961 draw resonance, 421-28 drag carrier, 290-454, 617-366, 723-89 drag delivery, 9-12, 9-489, 125-6L, 290-458, 290-480, 330-12M, 398-14L, 438-259, 516-12U, 517-295, 587-13U, 595-169, 617-358,715-11U, 723-5, 731-2041 drag-polymer core, 290-445,290-470 drag release, 438-223,438-267 drying, 18-3375, 210-466 dual-mode, 134-1327, 137-603,346-1209 ductile-brittle transition, 544-579 durability, 339-8L dye, 134-1285, 439-264 dyeing, 557-324 dynamic density, 673-1131 dynamic loading, 727 -43 dynamic mechanical analysis, 297-573,297-595, 297-600, 298-609 measurements, 341-2719, 430-1045, 430-1103, 431-1160 modulus, 297-579 properties, 201-318,419-83,471-227, 600-385 relaxation time spectrum, 435 - 1652 testing, 425-543 dynamics, 286-99, 351-1937 dynamic thermal decomposition, 164-645

E

Easunan-AQ polymer, 558-1397 effect coatings, 301-53 E-glass, 164-119 elastic fluid, 265-163, 483-112 elastic waves, 613-38 elastin, 9-519, 477-1187, 554-585 elastomer alumina-filled, 30-443 blend, 7-37, 89-1773, 197-1877, 362-111, 431-1163, 545-126 block copolymer, 722-1313 chain extender, 524-92 with cold resistance, 545-123 engineering thermoplastic, 656-29 entanglement, 658-3633 erosive wear, 303-833 idler, 152-537 flexoelectric effect, 160-33 heat-resistant, 464-199 high-loss viscoelastic, 38-3660 injection molding, 21-36 IPN, 514-263 liquid crystal, 208-57,278-67, 477-1089, 542-317 matrix shear model, 84-92 mineral-filled, 28-215 mixture, 156-2023 molecular motion, 273-1307 molecular weight between crosslinks, 401-481 network, 274-1423, 274-1432, 420-343, 658-3633 NMR imaging, 203-600, 299-715 O-ring application. 622-24 processing, 533-7 reactive, 20-817 relaxation processes, 480-88 segmental relaxation, 210-458 silica-idled, 82-321 in sire precipitation, 288-298 thermoplastic, 125-1095, 129-8U, 360-831,524-135, 552-31,621-529 threshold fracture, 343-339 vibration damping, 621-515 vulcanization, 368-107

©1989 Elsevier Science Publishers Ltd.

elastomeric additive, 426-604 ionene, 146-9 electret, 161-81 electrical conduction, 96-1381 electrical conductivity, 74-49, 93-209, 93-209, 165-83,303-2744, 481-409, 485-53, 491-2744, 492-109, 493-33, 612-145, 625-931,661-1649, 693-1048 electrically conducting, 93-247, 222-495, 296-419, 361-98, 583-219, 602-23, 609-1633, 735-1992 electrically conductive, 93-237, 94-383, 222-473,366-303,485-41,600-2045, 601-11,684-340, 714-1 electrically enhanced separation, 68-219 electrical properties, 218-7, 298-685, 328-206, 352-1964, 487-389 electroactive polymer, 26-161, 414-1166, 488-463,488-511 electrochemical applications, 746-161 electrochemically polymerized, 136-93 electrochemical synthesis, 492-709 electrochromic, 93-203, 133-1215, 222-501, 669-3O8 electroconductivity, 485-47 electrode, 37-2464, 37-2467, 37-2534, 37-2540 electrodeposition, 369-28 electrokinetic measurement, 165-40 electrolyte, 15-687 electromagnetic interference shielding, 214-52, 551-203 electron acceptor, 600-2061, 731-2071 electron beam curable, 420-457, 420-465, 420-469 cure, 29-2136 cured, 420-451 curing, 616-250 irradiation, 360-866, 361-251,529-325, 722-1515 processing, 419-411 resist, 29-2130, 135-915, 146-41, 266-1149, 267-1571, 296-458, 364-353, 413-1022, 547-1308, 599-3343, 614-134, 671-937 electron beam-induced, 296-473 electron beam-irradiated, 72-317, 132-1655, 163-1147 electron diffusion, 549-194 electronically conducting, 489-265 electronically conductive, 289-424 electronic applications, 57-132, 298-625 electronic energy transfer, 535-2851, 619-556 electronic properties, 296-415 electronic transfer, 77-3402 electron microscopy, 165-238, 655-473 electron-nuclear polarization transfer, 78-3523 electron-rich network, 203-566 electron spectroscopy, 81-57 electron transfer, 133-1173, 145-93, 271-1048, 350-1645, 730-4124 electron transport, 409-2266 electro-optic constant, 230-699 electro-osmosis, 200-377, 593-11U electrooxidative polymerization, 488-511 electrophilic aromatic substitution, 71-125 eleetrophoretic mobility, 744-273 electropolymerization, 73 -515, 220-193, 301-295, 425-565, 488-501 electropolymerized, 3%2534 electrorheological suspension, 683-154 electrostatic flocking, 22-89 electrosynthesis, 218-21 electrothermomechanieal film, 472-583 electro-ultrafdtration, 199-127 ellipsoidal polymer particles, 362-130 ellipsometric studies, 486-265 elongational flow, 29-2182, 70-99, 70-119, 75-297, 78-3511, 95-4121, 142-262, 215-186, 215-193, 417-593,524-267, 540-1389, 559-2643, 727-1157 properties, 405-607

POLYMER CONTENTS

rheology, 36-540 viscosity, 76-119, 741-281 elution liquid chromatography, 231-471 emeraldine, 487-425, 487-439, 487-445 EMI shielding, 128-5I, 652-121, 742-31 emulsion ordering, 258-111 polymerization, 122-677 theology, 163-176 seed, 686-598 viscosity, 607-110, 726-1021 encapsulant, 687-845 encapsulated, 126-1110, 290-472 encapsulation, 328 - 1,486-163, 617 -354, 677 - 130 end-corff'med polymer, 144-489 end-functionalized, 481-357 end-grafted, 205-853 energy transfer, 488-517 engineering plastic, 210-19, 257-17, 337-3U, 337-41, 337-6, 423-281,471-249, 621-15, 727-39 engineering resin, 412-29 engineering rubber, 592-6M engineering thermoplastic, 428-860 enhanced oil recovery, 588-383,717-451, 717-459 enol carbonate, 268-173 emanglement, 84-84, 269-723, 298-642, 347-401,420-246, 534-2709, 538-3162, 559-833,613-11 enthalpy relaxation, 204-701,265-1125, 295-343,409-2307 entrance effect, 365-488 entry flow, 65-627, 69-47, 69-245 enzyme analog, 661-1717, 661-1727 cartier, 278-249 conjugates, 258-227 depolarization, 290-507 immobilization, 263-2229 in polymer chemistry, 482-535 epicatechin polymer, 734-1955 epitaxial crystallization, 492-675 epitaxial growth, 475-1433 epithelial transport, 200-393 2,3 -epithiopropylmethaerylate-methacrylic acid copolymer, 64-241 epoxide adhesive, 96-187 amine system, 95-4244, 164-63, 164-69 with biphen,yl structure, 653-789 copolymenzation, 555-201U cure, 342-2949, 536-2902, 536-2911 flame retardant, 586-145 fracture toughness, 413-1079 oligomer, 159-2524 polymer, 358-47 polymerization, 156-2009 with reactive elastomer, 20-817 reinforcement, 82-291 ring opening, 679-394 with spiro ortho-ester resin, 692-3189 structure, 88-1632 surface, 89-1744 epoxide-amine, 585-421,735-2013 epoxidized, 72-279, 464-243 epoxy acoustic emission, 416-513 adhesive, 130-1137,417-662, 438-1653 aging, 417-662, 585-394 amine-crosslinked, 340-2563 amine cure, 284-325,284-347, 687-799 amine-cured, 33-1450, 37-3501,300-837, 410-2496, 431-1150, 434-1523, 669 -806 amine matrix, 217-14 amine reaction, 687-815 amine system, 157-2182 amine thermoset, 427-785 aminosilane system, 149-85 anhydride resin, 430-1083 anionieally cured, 415 -269 anomalous behavior, 197-1969 aramid composite, 232-194 aromatic diamine network, 149-63 with azomethine linkage, 662-1867 770

bamboo composite, 745-3483 binder, 605-715, 665-79, 665-82 bislactene-cured, 298-614 bisphenol-A based, 75-307 blend, 548-593 branched. 204-633 Brillouin scattering, 549-641 carbon composite, 81-139, 202-55, 693-3387 carbon fiber composite, 90-405, 21%91, 394-185, 651-441 carbon fiber-reinforced. 438-182 carbon prepreg, 550-150, 651-437 carbonpressure vessel, 434-1486 chemorheology, 198-163 coating, 97-291 complex cured, 130- I 105 composite, 280-356, 431-1155 crack blunting, 438-1634 cure, 21-851, 59-463, 97-313, 280-380, 284-329, 492-1984, 559-838, 602-28, 624-2951, 687-806, 693-47, 714-497, 714-508, 730-4093, 746-329 cure kinetics, 340-2661, 735-2094 curing agents, 586-211 cyanate polyreactions, 58-548 DGEBA, 550-173 dielectric-filled,611-205 dielectric properties, 269-753 diluent/fortffiers, 372-77 diol-modified, 122-696, 736-221 elastomer-modified, 559-2571 electromagnetically processed, 300-869 embedding, 515-356 encapsulant, 687-845 ester reaction, 675-669 fabric-reinforced, 129-38 fiber-reinforced, 368-9L flexibilizer, 550-239 foam, 298-695 fracture toughness, 37-3501, 371-442, 416-523, 614-115 gel, 286-83 gelation, 149-55 glass cloth prepreg, 430-1106 glass composite, 403-396, 426-632, 520-283 glass fiber composite, 132-1439, 464-243 glass-reinforced, 727-32 graphite composite, 28-33, 127-13U, 164-173U, 164-199, 202-79, 202-91, 261-136, 270-106, 302-41,405-299, 439-617, 469-448, 492-2011,519-341, 524-59, 550-162, 611-226, 719-121, 745-99 graphite fiber-reinforced, 340-2661, 481-203 heat treatment, 544-677 hexahydrophthalic anhydride cure, 197-1753 highly-filled, 295-327 hybrid, 481-193 imidazole-cured, 197-1931, 430-1070 imide-cured, 687-839 .~n?raregnated-cement, 492-632 red spectroscopy, 471-17 insertion reaction, 526-2519 internal plasticization, 340-2617 ionizing irradiation, 481-203 Kevlar composite, 13-279, 14-1026 light scattering, 160-72 mass spectroscopy, 272-1189 mechanical properties, 300-869 metal complex, 687-825 metal filament composite, 37-3630 metal-reinforced, 262-267 microgel, 687-830 microporous, 298-695 microwave processing, 217-46 miscibility, 84-107 modulus, 416-531 molding compound, 202-113,328-1,427-805 network, 547-1384 neutron scattering, 430-1132, 547-1384 from novolac, 468-3423 n6volac molding compound, 427-796 oligomer, 164-783

©1989 Elsevier Science Publishers Ltd.

particulate-filled, 95-3833, 438-1653 PES-modified, 359-662 phenolic-cured, 532-413 phosphazene-eured, 348-177 polymer, 544-628, 545-116 polymerization, 205-838, 428-838, 684-411 polyol-modified, 415-269 precursor, 194-61 prepreg, 434-1534 processing, 149-45 with quinazolone rings, 596-877 reinforced, 607-154 relaxation processes, 544-677 residual stress, 492-1984 reversible crosslinking, 149-75 RIM, 365-456 rubber composite, 371-1252, 395-139 robber mixture, 288-308 rubber-modified, 8-63,339-69, 340-2627, 667-1839 rubber-toughened, 741 - 1466, 741-1477 SIPN, 524-25 1 SMC, 126-11U solder, 435-1678 structure-property relationship, 430-1079 toughened, 128-5M toughening, 151-213, 481-193 toughness, 687-825 TSDC, 550-173 ultrasonic-modified, 160-54 ultraviolet stability, 293-31 UV-aged, 415-335 UV-cured, 295-343 UV-induced polymerization, 295-327 for UV lithography, 671-907 viscoelasticity, 431-1170 viscoelastic properties, 468-3423 volume change, 438-1528 water permeation, 299-797 epoxy-imidazole system, 141-99 epoxy-lignin blend, 129-877 epoxy-phenolic system, 66-803 epoxy-polyamide adhesive, 648-65 bis [4-bis(2,3-epoxypropyl)aminophenyl]methane polymerization, 207-349 epoxysilane cure, 294-222 epoxysilicone cure, 294-222 epoxy-silicone monomer, 294-217 epoxyurethane, 356-432 equation-of-state, 143-464, 359-672, 614-88 equilibrium melting point, 75-369 erythrocyte membrane, 200-345 ethanesultam copolymerization, 482-421 ether-amide block copolymer, 333-337 ether-ether exchange, 615-142 ethoxyearbonylpropanoylphosphonate, 345-1967 ethyl acrylate copolymerization, 58-555,585-411, 612-289 graft polymerization, 334-99 ethyl acrylate-sulfonatopropylbetaine copolymer, 359-654 ethyl cellulose, 746-173 ethyl ct-chloromethylacrylate,287-231 ethyleyanoacrylate, 159-2605, 593-143 ethyl-cyanoethyl cellulose, 342-131 ethylene co-oligomerization. 73-605, 73-623 copolymer. 22-3164. 79-2893.131 - 1183. 131-1269. 143-371. 208-109, 273-1273, 298-643.335-211. 337-411, 471-69. 616-312. 714-479 copolymerization. 22-3139, 33-1469. 197-1815.276-515.276-559. 547-1350, 679-363,736-233, 736-239 ionomer, 535-2776 oligomerization, 33-1469, 71-147 polymerization, 16-987, 87-1485, 122-670, 209-113, 527-2695, 536-2885, 675-2781, 677-16, 736-239 trisubstituted, 288-257,728-3871 ethylene-acrylic acid co~lymer, 611-264 ethylene-1-alkene copolymer, 616.275

POLYMER CONTENTS

ethylene-l-butene copolymer, 548-1508, 726.22269 ethylene-carbon monoxide cclaolymer, 352-2012 ethylene-chlorotrifluoroethylene copolymer. 521-135 ethylene glycol transesterification, 692-1445 dimethacrylate copolymerization, 548-1513, 548-1518 monomethylether polymerization, 135-795 ethyleneimine copolymerization, 668 - 169 ethylene-maleic acid copolymer, 718-513 ethylene-methacrylic acid copolymer, 539-3186 ethylene-methyl acrylate copolymer, 287-191, 473 -56 ethylene-octene copolymer, 96-1276 ethylene-0t-olef'm copolymer, 518-480 ethylene oxide block copolymer, 58-539 block copolymerization, 478-79, 478-79 /~_(elymerization,277-131,482-449 thylene)-phthalimidyl acrylate polymerization, 526-2491 ethylene-propene copolymer, 354-849 ethylene-propylene copolymer blend, 83-45, 96-4307, 123-125, 161-177, 327-80 functionalization, 66-777, 66-789 functionalized, 135-829 monodisperse, 77-3360 NMR, 29-2208 reaction, 88-1663 solution viscosity, 683-247 stereosequence, 29-2208 ethylene-propylene-diene terpolymer blend, 150-105, 232-641,232-649, 436-1756, 437-1830, 481-401, 547-1399, 547-1407 compatibility, 400-445 composite, 96-139 cured, 64-317 graft, 62-1163, 608-188 funetionalization, 540-1457 NMR, 742-643 photocrosslinking, 272-1154, 742-592 production, 555-185 reinforcement, 131-1197 sulfonated, 342-51 ethylene-tetrafluoroethylenecopolymer, 354-827, 667-1768 ethylene-vinyl acetate eopolymer blend, 151-327, 161-177, 273-1289, 359-604, 436-1748, 624-2939, 688-950 combustion, 283-337 desorption, 546-9 dielectric relaxation, 534-2699 filled, 283-337 high-pressure equilibrium, 713 -457 IPN, 586-137 ethylene-vinyl alcohol copolymer, 412-203, 437-1824 ethylene-vinyl chloride copolymer, 616-317 N-ethylglycidyl aniline olig~merization, 281-141 2-ethylhexylpoly(trimethylenephosphate), 145-107 ethylhydroxyethylcellulose,60-1031, 135-751 ethyl methacrylate, 96-217, 688-900 1-ethyl-4-[(2 -methacryloxy)ethyl earbamoyloxymethyl1-2,6,7 trioxabicylo[2.2.21octane, 72-333 ethyl 4 -methyl-3-oxo-4-pentenoate polymerization, 135-855 2-ethyl-2-oxazoline copolymerization, 335-225, 335-231 ethyl 1-substituted 2vinyleyelopropaneearboxylate,353-691 ethylvinylbenzefie-diviaylbenzene copolymer, 521-45 ethyl vinyl ether, 345-2093 ethyl 2-(vinyloxy)ethoxyacetate,599-3303 eutectoid copolymer, 24-2627 excess mixing functions, 158-2418 excimer, 8-115, 142-315, 161-129, 335-221

771

excimer fluorescence, 204-646, 548-599, 553-489 excimer formation, 74-21,208-79, 212-443, 272-1148, 408-2166, 609-1680, 745-597 excimer-fonning, 477-1057, 729-4014 excimer laser .~r~aPlications,601-3 diation, 624-1884 lithography, 294-155, 670-859, 670-868, 674-603,685-417 polymerization, 297-537 resist, 670-863 exciton, 229-627 excluded volume, 206.979, 362-114, 410-2412, 736-327 extender, 421-2, 652-14 extensional effects, 70-169 flow, 70-125, 70-251, 70-285, 70-355, 210-461,537-3004, 668-668 viscosity, 70-233, 70-303, 70-343, 473-107, 682-30, 682-43 extmdate swell, 7-367, 7-431,418-685, 422-203,526-157, 553-722, 601-989, 741-294 extruded sheet, 215-163 extruder compounding, 125-5U devolatization, 215-178 flight clearance, 422-108 flow model, 365-471 plasticating, 613-415 residence time, 154-134, 395-119 screw performance, 421-75 single-screw, 21-43 twin-screw, 257-87,365-433,421-44, 421-49, 422-120, 422-124, 422-146, 422-154, 422-164, 422-168, 473-19, 553-709, 672-1018, 739-1308 extrusion boundary element method, 161-639 conduction melting, 421 - 100 control, 139-13 feed bed, 201-298 flow, 483-121 heat transfer, 348-37 malting, 422-111 melting mechanism, 215-258 melt temperature, 364-415 numerical simulation, 727-8 plasticizing, 421-90, 421-93 process control, 21-45 product properties, 257-69 quality control, 545-129 rheometer, 431-1201 sheet, 553-731 solid conveying, 421-87 twin-screw, 7-337 welding process, 425-482, 740-1376

F fabric.484-193 facilitatedtransport.134-1327.200-13, 403-149. 532-375.598-99. 685-492 failureanalysis,435-1607 fallingball rheometry. 727- I 107 fastener, 586-59

fatigue, 26-207 fatigue-fractured, 96-1247 fatigue testing, 412-37 Feast monomer, 94-311 ferrite particle, 519-511 ferrocene conjugate, 682-94 ferroelectric, 88-1616, 163-2089, 209-129, 3030-563,491-342, 491-3519, 550-251, 663-333 fcrroelectric-f'dled,214-52, 551-203 fiber conductive, 286-163 damage, 492-2031 distribution, 214-57 dynamic mechanical properties, 523-571 flow, 201-1 grafted, 686-723 high-perfomaance, 217-3L, 338-12M, 685-550

© 1 9 8 9 Elsevier Science Publishers Ltd.

interfacial strength, 551-199 metalized, 128-5L oriented, 585-380 Raman microscopy, 194-17 refractive index, 164-112 retraction mechanism, 621-223 surface modification, 586-203 suspension, 727-1129 thermotropic, 215-153 ultra.thin, 679-325 X-ray analysis, 524-149 fiberglass, 35%507, 435-1603 fiber optic, 434-1530, 674-1186 fiber spinning, 530-1837 fibrin, 10-1733, 331-1011 fibrinogen, 155-77 fibroin, 21-889 field-flow fractionation, 163-11, 692-1934 filament, 425-565 filament winding, 689-9 filler interaction, 341-2845 film blowing, 33 - 1527, 553-722 cocxtruded, 139-9L diffusion measurement, 201-308 extrusion, 21-49 high-performance, 601-8 orientation, 21-52 ~train-cast,57-95 thin, 295-270 winding, 473-32 filter cake. 344-19 finite element analysis, 395-147 fire reaction tests. 283-385 fire resistance. 291-515,283-313 fire retardant. 257-57, 396-137, 551-277 Fischer-Tropsch polymerization, 693-1747 flame retardancy. 124-79 flame retardant, 16-1033, 291-518, 291-522, 291-524, 337-3L. 358-53, 474-2239, 693-291,724-3551 flammability, 291-513, 291-520 flavor compounds, 285-31 flexibility. 524-217 flocculant, 583-284 flocculating agent. 328-161 flocculation, 37-1839. 348-139, 348-145, 518-506. 744-15 Flory-Huggins, 529-1559, 529-1599 flow analysis, 436-1766 birefringence, 531-771,682-38 from ducts, 36-523 in gap. 35%26 in irregular channels. 34-1559 simulation, 435-1668, 598-295. 613-21 stability. 526-145 through porous media. 204-775. 301-48 visualization, 70-197 fluorene. 206-231. 297-507, 297-512 fluorenone, 281-217 fluorescence. 78-3532, 221-393,349-1622, 351-1874. 536-2854, 547-1262 depolarization. 205-874, 334-79 distribution spectroscopy, 469-305 energy transfer, 289-392 photobleaching, 275-1500 polarization, 272-1159, 342-2949, 471-93,548-1558 spectroscopy, 32-1373, 278-209, 289-389, 293-59, 554-511 studies, 204-734 fluorescent probe, 78-3490 fluorinated polymer, 148-359 fluorine-containing monomer. 281-119 fiuoro-additives, 127-4 fluoroalkyl acrylate membrane, 481-371 2-fluoroaniline polymerization, 487-343 fluorobenzene polymerization, 610.15 fluorocarbon elastomer, 28-227, 364-366, 36%251, 432-1343 polymer, 609-1571 side chain, 604-3475 fluorochemicals, 433-1402 fluoroepoxy compounds, 92-44

POLYMER CONTENTS

fluoroethylene ccpolymer, 90-1895 fluor.nrr.n~llasfic,92-44, 128-1L, 156-2001, ~¢1.f£

-A

/

fluoropolymer, 92-36, 128-15, 163-767, 439-539. 515-5U fluororesin, 128-4M fluorosilicone rubber, 28-227 foam dosed-cell, 522-281 dual-hardness, 402-73 energy absorbing, 337-5L, 514-263 fhe-resistant, 126-7U flexible, 523-117, 722-1347 injection molding, 608-204 insulation, 523-139 low density. 426-621 MDI-based. 402-57 multi-hardness. 402-18 Poisson's ratio, 96-4406 production. 476-17 rheology, 163-176. 601-881 thermoplastic, 33-1491, 33-1501, 426-655 foam-enhanced devolatilization, 669-782 foam-idled, 429-966 fogging. 429-1006 food rbeology. 36-546, 161-649 force field calculation. 274-1408 fonnaldchyde condensation. 8-169. 354-177. 354-181 fonnaldchyde-resoreinol, 692-3221 formulation, 608-37 formylstyrene-styrene-divinylbenzene resin, 662-1881 fractal analysis, 737-334 fractal geometry, 624-155 fractionation, 80-817, 198-2059, 723-921 fracture kinetics, 355-207 molecular aspects, 355-155, 415-213 numerical modelling, 434-1571 physics, 279-431 strength, 559-833 surface feature, 745-3635 toughness, 417-671,419-I 19 free volume, 6%101, 78-3490, 212-461, 270-1179, 412-267, 426-674, 475-1419, 559-2497 Frcidel-Crafts polymer, 595-727 friction, 257-51 friction-activated, 158-2423 friction coefficient, 430-1055 Friedel-Crafts caudyst, 745-3475 fumaric acid polyesterification, 396-49 fumaronitrile, 478-93, 521-65 functionalized polymer, 522-257, 556-231 functionalized support, 556-223 functional polymer, 139-59, 165-1299, 263 -2429, 345-2051 functional resin, 134-1443 furan copolymerization, 267-1713 furan-epoxy composite, 280.385 fuffuryl alcohol-formaldehyde, 586-173 furyl alcohol-polyamic acid, 745-947

G

galactomannan, 534-2641 v-irradiated, 612-135 gas adsorption, 393-59 bubble disproportionation, 38-291 detector, 224-781 diffusion, 285-1 mobility, 685-512 permeability, 154-44 permeation, 685-486 sensor, 263-2341 transport, 75-405, 270-I 121,417-639 Gaussian molecule, 604-3429 gel dynamic dilution, 285-69 elasticity, 141-147 electrically activated, 160-4 gas permeation, 135-343 high-strength, 288-310 light scattering, 621-498 macroporons, 141-155 modulus, 137-317

772

NMR, 349-1574 p~h~aseseparation, 95-4141 ase transition, 736-271 porous. 26-253 superabsorbing, 352-2023 swelling equilibrium, 23-3260 temperature-concentration dependence, 143-394 thermoreversible, 275-1500 yield strength, 137-317 gelatin, 10-1749, 63-361, 63-366, 205-848, 262-2203, 340-119, 344-87, 362-133, 470-1487 gelation, 143-400, 160-63, 285-81, 332-163.352-1988, 352-2011. 657-3555. 658-3716, 668-191. 680-517, 735-2118.741-1488 gel electrophoresis. 273-1351, 614-96 gel permeation chromatography. 231-458. 269-763 gel-polymer solution, 678-272 gel swelling, 261-179 genetically controlled synthesis, 617-420 geopolymer, 693-429 Giesekus fluid. 69-347. 301-13 glass, 77-3353, 82-299 glass fiber coating, 82-291,214-44 composite, 348-27, 426-613, 611-222 RF plasma-modified, 433-1454 surface, 394-230, 416-544, 589-637 glass mat-reinforeed, 428-873 glass-reinforced thermoplastic, 425-527 glass transition chain conformation, 204-698 correlation, 66-305 nature, 680-524 orientation effect, 271-23 of plasticized polymer, 156-1988 relaxation processes, 741-333 sharp front, 530-1731 and sound damping, 296-477 temperature, 84-116, 432-1287, 475-1405, 515-349, 746-137 theory, 37-149 thermodynamics, 601-2105 glassy state, 415-319 glucose sensor, 163-2781, 224-761 glutarimide copolymer, 649-175 glycidyl acrylate graft, 267-1641 glycidyl cellulose, 342-3003 glycidyl ether oligomerization, 548-549 glycidyl methacrylate copolymer, 335-211 glycine copolymer, 540-1379 glycol-siliconepolymer, 475-229 gold poq)hyrin, 472-621 gradient polymer, 296-473, 674-1200 graft copolymer, 88-1700, 205-861,289-372 graft copolymerization, 57-112 grafted polymer, 680-487 graphite composite, 403-389, 264-288 graphite-epoxy. 231-508, 369-46 graphite fiber electmpolymerization. 425-565 graphite intercalation compound, 489-245 graph theory. 159-2618. 547-1314 greenhouse effect, 606-72 guanamine polymerization, 668-155 guar gum, 332-205 guayule robber, 420-315. 742-635 gum arabic, 482-517

H

haemocompatible, 258-169 halatopolymer, 669-777 halatotelechelic ionomer. 23-3330, 30-493, 615-219 haloaldehyde polymer. 15-519. 216-171. 732-2217 haloamine. 165-1109 halobutyl elastomer, 474-2435 halofluorocarbon plasma. 29-2277 halophenol polymerization. 19-2485 head-to-head copolymer, 136-85 health care industry, 432-1290 heart valve. 463-4U heat capacity. 84-156, 745-955 heat deflection temperature. 435-550

©1989 Elsevier Science Publishers Ltd.

heat exchanger, 673-1111 heat of mixing, 143-374 heat of transition, 304-327 heat-resistant polymer, 26-141,148-341, 599-3465 heat transfer.281-171 helix-coil transition, 76-937, 409-2367, 410-2376, 53%3011 helix-helix transition, 617-408 heine protein, 472-433 hemicellulose, 145-129 hemofiltration, 525-35 hemoprotein, 134-1307 heparin, 616-335 heparin-absorbing, 515-299 heparin-PVA, 515-313 heptyl acrylate polymerization, 677-96 heteroaromatic copolymer, 547-1319 heterophane polymerization, 405-241 heteropolyacid, 476-929 hexadiene copolymer, 276-643 hexafluoroacetone mine, 276-623 hexafluoroacetone:12F-poly(ether ketone), 295 -310 hexafluoro-l,3 -butadiene" 539-3183 hexafluorodimethyl-carbonol, 615-213 hexamethylcyclotrisilazene, 678-182 hexamethyleyclotrisiloxane, 213-31 hexamethyldisiloxane, 594-605 1,6-hexanediol diacrylate, 439-477 hexa (phenoxy)cyclotriphosphazene, 745-3475 trans- 1,3,5-hexatriene" 420-332 hex-l-ene terpolymer, 591-791 1-hexyuc terpolymer, 359-756 highly conductive, 493-39 high-temperature polymer, 613 -371 hindered amine, 355-231,551-209 hollow fiber, 403-131,404-259, 438-764, 438-814, 679-300 holocellulose, 16-1027, 123-93,328-126 Hookean dumbbell, 151-259, 195-1U, 265-127 hose, 602-26 hot plate welding, 480-47 hot runner, 140-36 htmaidity-sensitive, 348-169, 656-499 humidity sensor, 371-387 hydrobenzoic acid copolyester, 530-1837 hydrocolloid, 607-100U hydrodynamic equations, 41 0-2420 hydrodynamic interaction, 69-21,601-913 hydroformylation, 472-381,472-417 hydrogel, 29-2191, 158-2378, 231-3, 231-11,262-2121, 290-490, 535-2824, 539-1253, 549-200, 607-100L, 624-271,688-965 hydrogenation, 204-662 hydrogen atom transfer, 680-508 hydrogen bonding, 126-1102, 268-161, 413-1012 hydrolysable polymer, 615-197 hydrophilic polymer, 438-803U hydrophilic spacer, 142-205,604-3475 hydrophobe-modified, 685-528 hydrophobically associating, 617-386 hydroquinone polymerization, 488-507 hydrosilylation, 145-203,471-349 hydrosol, 232-217 hydroxyalkyl acrylate copolymer, 29-2191 hydroxyalkyl methacrylate copolymer, 29-2191 hydroxyapatite, 715-4L, 744-77 p-hydroxybenzoate-m-hydroxybenzoate copolymer, 542-307 4-hydroxybenzoic acid cq)olyester, 277-25,548-1472, 655-459 bis(hydroxybenzyl)diphenylether epoxy oligomer, 713.466 hydroxybutyrate copolyester, 290-494 3 -hydroxybutyrate/3-hydroxyvalerate copolymer, 372-490 hydroxyethylcellulose,286-101,686-614 2-hydroxyethyl methacrylate copolymer, 535-2824 copolymerization, 653-82 I, 661 - 1635 hydrogel, 688-965 membrane, 598-137 hydroxyethylmethylcellulose, 11-269

POLYMER CONTENTS

hydroxy-hydroxyvaleratecopolymer, 649-400 hydroxylated polymer, 291-61 hydroxyl-containing.614-128 hydroxyl end group. 541-271 hydroxylethylacrylatecopolymer. 337-411 13.13'-(2-hydroxyl-5 -methylbenzoyl)-pdivinylbenzenepolymer. 596-843 cL-hydroxymethylacrylonitrile.73-737 hydroxymethylarylate,287-233 2-(hydroxymethyl)thiirane"352-2020 2-hydroxy-6-naphthoicacid.530-1837 hydroxyoligo(oxyethylene).30-455 hydroxyphenylbenzotriazole.57-57 hydroxypropylceIIulose"66-737, 121-266. 130-I 147.204-734. 263-2399, 274-1419, 340-25 17. 341-2781. 370-135. 409-2286. 529-289, 584-464, 618-454. 735-2063 hydroxypropyl guar.76-15 hydroxypropyl lignincopolymer. 212-570 N-(2-hydroxypropyl)methacrylamide copolymer. 515-335. 558-21. 723-27, 723 -37.723-5 I.732-2245 N-hydroxysuccinimide. 13-1037 hyperfiltration.68-243

I

imaging, 57-155, 58-209, 295-385, 684-412 imidazolium salt polymerization, 685-432 imide-arly ether benzoxazole, 288-265, 610-47 imide/arylene ether, 295-294, 614-132 imide-comaining, 132-1727 imidization, 652-6U imidized acrylic polymer, 65-513 imine chemistry, 615-173 imine copolymerization. 25-739 imino sulfonate group, 72-325 immobilization, 37-2473, 155-19, 259-293, 290-488, 340-113, 534-2720, 649-201, 686-670, 691-327, 692-2367, 725-437 immobilized, 91-277, 216-147, 231-11, 258-249, 292-297, 354-167, 367-55, 613-453, 620-1 immobilizing, 354-167 immune modulating, 292-205 impact fatigue, 339-8L fracture, 90-391,736-330 loading, 675-2787 testing, 157-2205, 13-453,430-1059, 492-2099 transition temperature, 426-674, 535-2761 viscoelastic response, 417-654 impact-modified, 417-671 implant, 59-12, 125-11, 190-12L, 190-13L, 191-2, 231-3, 259-1,259-5, 259-9U, 259-11,259-14, 331-12L, 432-1282, 515-21.., 515-3M, 515.4U, 515-5M, 515-325, 516-8,587-6L, 587-8U, 587-13L, 595-123,650-15U, 715-4L, 715-11U impregnation, 357-494 indene copolymerization, 34-979, 71 - 185 inelastic deformation, 605-721 infrared detector, 224-775 iniferter, 17-1089, 344-1795, 406-253, 539-1243, 590-643 initiating systems, 478-39 initiator, 9%237, 141-108 injection molded, 33-1509 injection molding, 271-7 automated, 21-24 automation, 21-34, 406-9, 422-224 in automotives, 139-3U CAD, 7-355 CIM, 423-320 continuous, 127-8L cooling system, 424-352 cost economy, 271-16 expert system, 140-39 fiber or/entation, 425-539 flow simulation, 406-291,423-295, 435-1699 of foamed thermoplastics, 423-231 gas-assisted, 429-1014. 545-31 gate design, 431-1265 773

integrated, 395-101 lumped parameter calculation, 424-376 machinery, 21-19, 422-228, 43%1905 in manufacturing, 21-26 melt, 215-202 metering, 271-5 mixing screw, 422-214 modeling, 426-619 mold, 27-366, 424-364, 533-15 mold design, 424-356 mold ejector, 150-433 mold filling, 585-384, 672-1039 mold production, 139-3L molecular orientation, 606-5 numerical simulation, 281-155 pecking stage, 86-1637 parameters, 423-312 pin ejector system, 431-1231 plants, 21-41 preforms, 339-7L process control, 211-45 process simulation, 423-308 product design. 423-291 production, 21-29 product properties, 257-69 quality assurance, 348-3,476-14 screw design, 365.479 secondary plastic materials, 358-59 simulation, 423-286, 423-344, 424-371 software, 129-10U system approach, 422-220 temperature distribution, 34-1565 temperature field, 95-1959 temperature measurement. 215-171 thin wall, 423-348 tool coating, 271-15 transducer-based. 423-260 trouble shooting, 423-327 two-cavity mold, 601-7 weld line, 546-17 inorganic polymer, 71-263, 616-297, 682-91 inorganic polymer-metal complex, 472-381 insulation, 150-271 integrated circuit, 687-840 interactionparameter, 22-3204, 394-155, 585-363,610-71 intercalation, 228-387 interdiffusion, 624-341 interface, 26-191, 37-425, 534-2682, 537-3018, 740-1340, 744-43 interfacial growth, 163-2009 modelling, 614-76 stress, 364-432 technology, 617-386 tension, 530-681 interference microscopy, 289-366 interferometric studies, 232-23 1 intermolecular cyclization, 603-3424 internal mixer, 15-318, 435-1631 interpenetrating network acoustical properties, 298-654 diffusion, 464-227 elastomeric, 669-824 fatigue, 514-309 fdled, 681-651 formation, 298-659 gradient, 605-765 high-temperature, 433-1434 hydrogen bonding, 603-3374 morphology, 83-11L phase diagram, 513 -230 phase separation, 205-822 from polyurethane, 59-525, 66-841,124-125 semt -mterpenetrating, 59-509 interpolymer association, 411-2540 complex, 281-209 interaction, 714-139 intramolecular cyclization, 595-693 intraocular lens, 463-5U, 463-8U intrasegmental potential energy, 613-1 intrinsic viscosity, 74-5, 143-380 intumescent, 283-359, 396-137, 551-277 inverse gas chromatography, 78-3458, 150.411,151-317, 151-324. 158-2346. 214-89, 231-450, 393-1,393-12,

©1989 Elsevier Science Publishers Ltd.

393-20, 393-33,393-48, 393-59, 393-87, 394-108, 468-3459, 471-175, 538-3116, 548-1493, 551-194, 659-3781,687-865 iodine absorption, 418-403 iodine complex, 477-I 153 iodine-doped, 488-495 3-iodo-9-N-vinylcarbazole copolymer, 156-2077 ion-binding resin, 556-131 ion bombardment, 126-6U ion complexation, 272-1169 ionene, 18-3323, 331-125, 586-183, 723-1549, 723-2535, 735-2023, 735-2030 ion-exchange resin, 438-251,475-1551, 556-143 ionic conducting polymer, 289-404 ionic conductivity, 289-420 ionic polymer, 33-1473, 616-333 ionic transport, 290-442 ion implantation, 126-6U ion-ion interaction, 289-422 ionomer, 513-1 ampholytic/amphiphilic, 288-326 block copolymer, 616-248 cation clustering, 534-2634 cement, 684-311 compatibilizer, 32-1416 complex, 683 -259 deformation, 615-223 dynamic simulation, 616-254 fatigue, 22-3183 fracture, 22-3187 glass cement, 164-363 infrared dichroic study, 659-3788 interpolymer complex, 75-245 ionic domain, 514-439 low molecular weight, 201-250 neutron scattering, 658-3746 order-disorder transition, 142-226 pertluorosulfonate, 142-220 phase behavior, 289-408 plasticization, 514-476 scattering, 514-446 shear thickening, 683 -259 solution, 204-754, 414-162 star-branched, 514-330 STEM, 514-439 structural properties, 624-295 sulfonated, 686-593 tracer, 154-134 X-ray analysis, 514-420 ionomer-like material, 479-217 ion permeation, 346-209 ion-selective electrode, 134-1463, 438-1169 ion transport, 289-424, 477-1069 IR-laser radiation, 89-1808 irradiation, 57-14, 372-307 isobutene copolymerization, 354-157 isobutylene copolymer, 471-69 copolymerization, 71-107 graft, 286-127 polymerization, 135-785, 585-407 isobutyl vinyl ether polymerization, 30-407, 271-1009, 273-1277, 349-1552, 481-357, 600-399, 728-3877 isocyanate cyclotrimerization, 90-1909 isocyanate-epoxy rea.ction, 522-373 isocyanate polymenzation, 678-150 isocyanide polymer, 617-418 isocyanurate polymer, 342-65 isomaleimide polymerization, 675-655 isomeric states model, 410-2396 isooctyl/iso-decyl methacrylater, 745-989 isoprene block copolymer, 270-1135 copolymerization, 528-2907, 679-289 oligomerization, 406-277 polymerization, 58-552, 462-341,523-477 rubber, 420-315, 655-465 isopro~nyl t-butyl ketone polymerization, 615-164 isopropenyl group, 405-233 2-isopropenylnaphthalene,657-3564

POLYMER CONTENTS

N-isopropylacrylarnide,290-482, 549-203, 617-342 itaconate polymerization, 439-317 itaconic acid copolymer, 122-654, 722-1439 itaconic monomers, 266-1325 Izod, 430-1059, 666-43

J

Johnson-Segalman fluid, 69-303 joining methods, 740-1310 joint, 407-34 jute, 131-1171, 131-1423, 164-205, 262-2099, 466-3085, 468-3437, 693 -525

K

kaolin, 127-14U, 518-327 Kel F, 556-259 keratin, 163-295, 232-123,262-2131, 521-29, 654-1159 Kerr effect, 726-2295 Kevlar, 13-473, 38-3732, 85-10, 96-1209, 151-218, 213-66, 263-2213, 413-996, 414-184, 465-5, 532-389, 551-202, 718-505 kneader, 545-131 knotted macromolecules, 275-1490

L

lactam intermediate, 556-207 lactic acid copolymerization, 13- 1029, 660-1553 ladder oligophenothiazines, 488-477 ladder polymer, 296-400, 296-404, 296-410, 296-419,488-471,491-5012 lamellar thickness, 269-967 Langevin equation, 531-725 Langmuir-Blodgett deposition, 361-108 fdm, 12-806, 94-369, 144-485, 220-229, 220-237, 220-251,222-473,230-683, 346-1289, 410-2381, 534-2706, 688-924, 690-275 layer, 403-187, 604-3505 membrane, 354-167 monolayer, 224-807 muhilayer, 142-205, 604-3475 Larc-TPI adhesive, 467-3329 laser ablation, 293-59, 491-4548 laser drilling, 95-6819 laser goniometry, 288-328 laser-induced curing, 297-547 latex association, 121-284 carboxylated, 38-298 coalescence, 82-.401,261-167 composite, 298.644 copolymer, 300-855, 437-1855 core-shell structure, 615-215 density determination, 692-1934 deposition, 557-310 film, 332-155, 523-557 heterocoagulation, 138-21 hydrophilic functional, 522-403 IPN, 298-674 paint, 521-173 particle, 521-105 theology, 685-533 lattice-fluid model, 409-2325 lattice model, 491-151 lauryl methacrylate, 26%1609, 685-522 lead titanate composite, 163- 1754 Lewis acid, 207-267 lifetime prediction, 96-115 ligand binding, 716-1705 lightguide, 673-1169, 673-1177 light scauering, 469-275, 547-1379, 600-2023, 600-2037, 619-563 lightsensitive polymer. 526-2647 light stabilizer, 551-101 lignin, 125-15, 263-2399, 291-511, 342-2961, 46%3119, 582-2, 582-11, 582-29, 582-42, 582-82, 582-100, 582-109, 582-124, 582-134, 583-144, 583-155, 583-177, 583-190, 583-205, 583-219, 583-228, 583-245, 583-262, 774

583-284, 583-294, 583-312, 583-334, 584-346, 584-361,584-372, 584-382, 584-414, 584-425, 584-436, 584-452, 584-488. 585-515 lignin-epoxide, 585-506 lignin-epoxy resin,584-496 lignin-medified, 583-324 lignin-polyethylene glycol-toluene, 584-390 lignocellulosic material, 493-149 lignopolystyrene, 584-476 liguid chromatography, 468-39 lipid, 23-3336, 281-195 lipopeptide, 148-321,193-499 liposome, 140-61,290-478, 332-201, 407-2103, 472-481,519-520, 525-253, 595-177, 674-641 liquid crystal, 617-396 acoustic properties, 303-529 acrylate, 732-2255 alignmen4 146-5, 361-102 association, 120-1 athermal lyotropic, 679-316 in biological systems, 258-81 blend, 38-1071, 81-253, 166-105, 417-573,436-1716, 437-1843, 437-1847,466-3063, 601-2117, 619-538,619-540, 619-542, 619-544, 619-550 block copolymer, 120-116 carbon fiber-reinforced, 655-451 comb-like, 148-321. 278-111,676-2896 composite, 436-1708, 471-273 computer simulation, 614-69 converging flow, 433-1381 copolyester, 76-925, 121-225, 150-73, 215-244, 269-819, 548-1472, 718-473, 736-247 copoly(ester-amide), 18-3269 copolymer, 22-3146, 22-3152, 22-3158 crosslinking. 664-391 defect. 141-168. 203-595 dielectricproperties.479-231 dielectricspectroscopy. 589-583. 729-4040 with discoticmesogen, 352-1960 domain structure.206-960 doped. 618-479 elastomer, 733-441 elastomeric membrane, 685-497 electro-optics, 619-530 elongafional characteristics, 417-625 extrusion, 422-200 ferroelectric, 732-2235, 743-409 film, 491-5043, 492-362 flow-induced orientation, 347-537 functionalized, 618-493 with heterocycloalkanediyl group, 349-1588 hydrocarbon, 618-503 hydrogen bonding, 272-1125 lyotropic, 258-109 magnetic orientation, 202-101 main chain, 30-467, 618-462,618-495 membrane, 15-583 with 6-[-4-(-methoxy-J3-methylstyryl)phenoxy] hexyl side group, 668-199 microscopy, 618-511 mold shrinkage, 618-476 monomer, 618-470 nematic, 225-51 network, 25% 1L with 4-nitroeinuamylidene unit, 28%246 NMR, 469-165 oligomer, 300-801 oligomeric, 730-4102 op.ticalnotch filter, 29-2141 orientation, 53%2982 phase behavior, 7304088 phase transition, 144-498 phosphazene, 533-2596 photodimerization, 78-3536 photoinitiated polymerization, 667-1909 phthalocyanine, 148-303 polyacrylate, 136-999 polyester, 79-2755, 724-3691, 728-3846, 729-3974, 729-4083

©1989 Elsevier Science Publishers Ltd.

poly(ester amide), 659-3807 polymerization, 121-204 polymethacrylates, 88-1616, 136-999 polysiloxane, 136-999 post-polymerization, 659 -3821 precursor, 475-1477 prepolymer, 669-765 as processing aid, 523-583 PVT properties, 548-1467 recent developments, 26-95 theology, 619-524, 619-528 rigid polymer, 677-101 SANS, 143-422 shear-induced orientation, 673-1136 short-fiber reinforced, 532-427 side chain, 24-2647, 58-583, 144-491, 148-271,148-283, 152-549, 272-1141, 406-285, 407-2036, 407-2070, 407-2077, 474-2367, 529-325, 618-444, 618-446, 618-450, 618-469, 618-501, 618-507, 659-3763, 663-333,682-11,734-477, 735-2124 siloxane, 355-189, 540-1407 solution, 78-3511, 341-2781, 348-151, 589-568 spectroscopy, 534-2611 stabilization, 659-3818 structural variation, 122-599 super-strong, 619-532 thermoptieal analysis, 165-1177 thermoset, 619-536 thermotrop!c, 144-1,216-155, 272-1120 thermotroptctty, 410-2487 viscoelasttcity, 137-185 viscosity, 726-1059 liquid crystalline, 72-453 liquid-liquid transition, 287-168 liquid membrane, 404-259 lithium acrylate eopolymerization, 335-241 lithium methacrylate, 335-241 lithium potassium copolyphosphate, 122-630 lithographic, 147-169, 294-165, 296-390 lithography, 295-260, 296-390, 670-878, 671-902, 671-965 living eopolymer, 276-643 living polymer, 276-567 loading history, 407-31 localization, 78-3515 long-term behavior simulation, 656-47 lower critical solution, 23-3286, 532-361 lyotropic, 617-379, 730-4088

M

macro-initiator, 663-1987 maeromer, 15-655, 584-414 macromonumer, 19-511,143-429, 145-45, 205-861,265-1099, 276-577, 349-1546, 349-1604, 418-377, 536-2869, 554-519, 599-3521, 600-3T/, 664-403, 732-2173 macronet styrene polymer, 267-1619 macroporons, 35-147, 336-331,661-1717 macroprocessing, 210-464 madelic acid, 620-57 magnesium hydroxide filler, 546-45 magnetic coatings, 60-1014, 77-985 magnetic media, 420-437 magnetic memory, 430-1099 magneto-optical properties, 744-3912 magnetoviscometer, 341-2675 maleic acid copolymer, 88-1638, 256-36, 585-405, 657-3564 maleic anhydride accelerator, 687-815 copolymer, 62-1203, 327-105, 462-331, 470-1667, 585-401,675-2735, 733 -2325 co11~1.7.Y~22erization,72-367, 146-31, 18, 267-1713, 345-2093, 540-1319, 554-511,599-3315, 724-989 graft, 432-1368, 433-1398, 599-3353 terpelymerization, 732-2149 maleimide copolymer, 685-502 maleimide-terminated, 413-978 bis (4-maleimidophenyl)methane, 149-141 maleisoimide copolymerization, 470-1683 maleonitrile copolymer, 478-93 POLYMER CONTENTS

many-chain problem, 204-720 Marangoni effect,606-71 marine applications,290-503,298-664, 432-1356, 615-197 Mark-Houwink constant, 528-292,5 equation, 213 -97 relationship, 518-494 Markoff processes, 535-2788 mass spectroscopy, 194-37, 203-623, 203-627, 469-211,552-307 material constants, 91-879 materials research, 92-40 Maxwell fluid, 69-295, 347-391,473-69 Mayo-Lewis equation, 527-2819 mean-fidd theory, 143-394, 420-305 mechanical properties, 164-247, 328-197 mechanical relaxation, 164-375 mechanical testing, 347-455 mechanochemistry, 555-451 mechano-ions, 356-299 medical applications, 292-275, 330-9U medical device, 435-1610 medical plastics, 59-4, 259-10L, 432-1292, 516-9, 531-71,655-121 medical tubing, 330-5L melamine, 8-169, 437-1894 melamine-based, 263-2251, 263-2263 melamine-formaldehyde resin, 130-915, 163-241,210-467 mdamine-polyol coating, 299-700 melamine salts, 291-531 melamine-urea resin, 594-727 melt chain dimensions, 538-3120 complex formation, 279-451 confined polymer, 614-78 constraint release, 285-41 devolatilization, 422-142 diffusion, 75-151,285-63, 422-137 drawability, 76-119 dynamics, 285-43 dasticity, 138-166, 435-1659 equation-of-state, 152-569 extrudate, 265-179 flow, 158-2449, 737-337 fracture, 431-1197 modulus, 601-805 orientation, 672-984 between plates, 289-360 theological properties, 301-54 spinning, 70-141, 70-157, 70-325 temperature, 84-116 melting, 78-3482, 365-448, 534-2663 membrane alumina, 17-221 aluminum oxide, 17-285 amphoteric, 199-177 asymmetric formation, 285-36 barrier, 404-325, 525-305 for battery application, 687-876 bilayer, 366-295, 472-481,657-3544, 688-924 biocompatibility, 190-1 bipolar, 403-165 bisphenol-A-based, 200-69 block copolymer, 733-457 in blood treatment, 688-597 bubble point measurement, 687-787 carboxylic ion-exchange, 529-321 casting process, 654-299 cation-exchange, 124-97, 156-1994, 199-143,264-233,648-101,654-1025 cationic, 721-1229 cellulosic,523-483 ceramic, 17-243, 17-259, 688-889 on ceramic tube, 199-103 charge-mosaic, 403-205,686-694 chitosan,468-3375 day, 130-1125 eo~nMpos.2ite,7-1,7-15, 404-313, 540-1369, 25 conductive, 190-11M190-11,199-127 with controlled microstmcture, 533-2602 crossflow microfiltratiou, 687-777 dialysis, 525-5 differential fdtration, 686-687

775

diffusion, 78-3474, 332-218 distillation, 199-211 dastic hydrogd, 523-491 electrically conductive, 688-895 dectrode, 37-2540 electron transport, 267-1625 extracorporeal, 525-89 filtration, 68-123 fixed carrier, 688-894 formation, 404-319, 735-2118 fouling, 68-199, 68-231 gas permeability, 677-222 glass, 18-301 heterogeneous, 200-1 hollow fiber, 365-241,744-2332 humidity compensating, 686-653 hydrophilic, 200-305, 687-875 hydrophilized, 686-648 hydrophobic-hydrophilic, 523-453 immobilized, 404-291 inorganic, 17-203 ion-exchange, 88-1597, 199-155, 337-395, 344-31,356-311,401-515.525-197, 586-191,648-101,654-197, 654-209, 726-2229 ionic, 82-421 ionically conducting, 231-270 ionomer, 514-40 1 ion permeation, 664-361 ion-selective, 199-115 ion-sensitive, 231-246 kerateine-immobilized, 527-2883 lipid, 516-1247, 744-455 liquid, 199-187, 200-183,264-215, 525-213,525-273, 541-1501, 598-73, 598-85, 598-115, 654-281,688-880 liquid crystal, 520-10U macroporous, 654-247 microcomposite, 514-401 microfiltration, 17-273 microporous, 68-231,264-233,687-794 mobile, 257-39 model, 475-1499 muhicomponent effects, 265-285 Nation, 199-163 nonsteady state, 262-2181 for oxygen enrichment, 341-2907 oxygen-permeable, 541-255 perfluorinated, 356-311,692-2193 permeability, 404-277 penmeability-cont rollable, 142-308 permeator, 200-147 permselectivity, 262-2181 phase inversion, 346-187 photosynthetic, 687-782 plasma-grafted, 598-137 plasmaphoresis, 525-131,686-665 plasma-polymerized, 341-2773, 481-371 plasma separation, 525-55,525-115 polymer electrolyte, 472-609 porous glass, 200-109 reactor, 199-225 rejection, 404-307 reverse osmosis, 96-13,686-693 separation, 525-265 sieving, 200-87 silica, 17-213,525-289 siloxane-anodic aluminum oxide, 525-151 styrene ionomer, 532-347 surfactant, 134-329, 199-197 switch, 592-6U with transition metals, 277-145 transport, 199-3, 343-421,475-1499 two-scale permeability, 285-20 ultrafiltratao' n, 199-55, 199-69, 403-187, 404-243,558-297,721-1197 wound dressing, 463-2U zeolite, 197-1791 memory effects, 426-681,426-685 memory ftmetion, 164-375, 526-119 Merrifield resin, 549-649 mesumorphic polymer, 278-115 mesumorphism, 661-1655 mesophase, 88-1609, 275-1512, 278-69, 658-3628 metalation, 656-481 metal-based duster, 685-433

©1989 Elsevier Science Publishers Ltd.

metal cluster, 163-1717 metal complex, 472-495, 714-105 metal-containing, 345-1935, 684-358, 685-437 metal coordinationpolymer, 684-316 metal-filled polymer, 364-420 metal inserts, 435-1628 metal interface, 687-728.68%733 metal ion chelation, 134-1455 metal ion transport, 64-241 metallocarbene polymer, 471-361 metallophthalocyanineformaldehyde resin, 526-2531 metallophthalocyaninepolymer, 492-77 metallothiocyanate, 165-235 metalorganic polymer, 79-2739 metal-polyimide-silicon structure, 303-2766, 491-2766 metal-polymerboundaries, 328-214 metal terephthalate, 531-59 metal-tetrathiolato polymer, 488-557 metathesis, 225-105, 271-1022, 28%193, 288-283,349-1558, 538-3181, 592-805, 602-3191,602-3205, 614-128.614-128, 730-4132 metering, 21-6 methacrylamide copolymer,663-1975 4-methacrylamido-l-methylthiosulfonate, 679-389 methacrylate-butadiene-styrene copolymer, 655-129 methacrylate ester, 287-217 methacrylate polymerization,491-277, 618-437 methacrylate soft lining, 303-91 methacrylicacid copolymer,96-I172, 159-2505,208-109 copolymerization,612-289,668-169 graft,63-39,73-595, 165-129,218-60, 523-503,598-137,718-467,721-1229 polymer, 12-775 T-methacryloxypropyltrimethoxy silane copolymerization,590-605 p-methacryloyloxyacetanilide,360-949 N-methacryloyloxyphthalimide,198-2051 methacryl-typemacromonumer,536-2878 methacylamidetelomerization, 155-35 methane polymerization, 594-741 methotrexate polymer. 291-139 2-methoxyethylmethacrylate copolymer, 208.427, 585-414 2-methoxy-4-methylene-2-phenyl-1,3dioxolane polymerization,479-201 3-methoxy-3-phenylpropene, 334-85 ¢¢-methoxystyrenecopolymer, 17-1137 methyl acrylate copolymer,528-3173 copolymerization, 267-1559, 482.459, 713-445 polymerization, 732-2161, 732-2193 terpolymerization, 353-677 methyl acrylate-ethylenecopolymer, 534-2694 methylalumoxanecatalyst, 30-421 methylceIlulose, 156-2047, 160-27, 342-3003 methyl ot-chloroacrylaye,34-1031 methyl cyanoacrylatecopolymer, 136-85 methyldiallylamine copolymer, 585-405 N,N'-methylenebisaerylamide. 16-943 4-methylene-1,3-dioxolan-2-one,733-453 methylene group. 681-628 2-methylene-4-phenyl-1,3-dioxolane copolymerization,72-291 methyl ~-(hydroxymethyl)acrylate, 203-537 N-methylmaleimide graft, 591-709 N-methyhnethacrylamide,34-1021 methyl methacrylate copolymer, 17-1137, 29-2271,96-1172, 130-1153, 164-769,204-646, 400-431, 439-189, 470-1667, 482-489, 540-1325, 719-885,745-989 co~olymerization, 17-1039,34-1021, 8-555, 130-1029, 266-1429, 335-237, 335-251,337-385, 346-181,548-1513, 548-1518, 554-519, 589-535, 590-629,

POLYMER CONTENTS

590-657, 596-861,680-559, 688-900, 713-445, 724-3659 graft, 8-93, 131-1423,257-68, 436-1816, 466-3085, 529-295, 613.439, 693-525, 713.448, 725-3817 oligomer, 79-2807, 216-199, 365-231, 591-759 photograft, 594-717 photopolymerization,336-301,366-275, 401-509, 728-3866 polymer, 492-1936 polymerization, 14-1073, 14-1115, 5-771, 29-2221, 58-596, 66-825, 77-3345, 87-1518, 96-217, 140-35, 155-103, 156-2105,203-563, 210-450, 267-1687.268-1741, 281-151, 287-210, 304-253, 304-1095, 331-133, 474-2427, 477-1133, 479-167, 492-353,492-365, 532-385, 553.483, 586-127, 588.413, 591-725, 65%3607, 664-367, 668-304, 718.499, 719-885, 724-3703, 732-2193 Raman spectroscopy,550-234 telomer,18-3275 methyl methacrylate-butadiene-styrene copolymer,395-279,480-94,669-817 methyl methacrylate-diene,591-759 methyl methacrylate-lithiumacrylate copolymer, 123-715 methyl methacrylate-nickelacrylate copolymer,395-293 N-methylolacrylamide, 156-2129,396-101 methylol cellulose, 530-1949 methyl orange, 345-1925 2-methyl-2-oxazoline,272-1074, 481-353, 482.421 methylphenylmaleimide,335-231 N-methylpyrrolecopolymer,489-189 methyl silicone resin, 97-269 ot-methylstilbene, 401-527 methylstyrene, 365-253, 591-701 a-methylstyrene benzoyloxy radical reaction, 464-209 copolymer, 547-1308 copolymerization,591-737, 598-3227 polymerization, 16-907,474-2217. 474-2229 0t-methyl styrene-acrylonitrile copolymer,417-581 or-methylstyrene-styrene, 152-543 13-methylstyrene,668-131 methyl-substituted quinoline, 413-1076 methyl vinyl ketone, 13-1041m593-143 mica, 23-3333, 163-301,289-354 mica-f'dled, 132-1449 micellar solution, 232-511 micelle, 142-249, 558-417, 558-1318, 614-74 microcapsule, 67-1, 67-27, 200-323, 293-113, 395-243, 462-325. 473-2151, 598-155 microcellular foam. 290-447 microdielectromeuy, 284-290 microelectronics, 163-1U,742-18 microemulsion, 120-22, 120-34. 120.47, 120-64, 120-86, 121-328,353-725, 491-97U, 655-311 microencapsulated. 290.478, 366-281 microencapsulation, 191-14.649-380 microf'dtration,68-173,597-3 microfoam,730-4128 microgel. 36-531,151-202, 682-1,684-398, 68%830 microhardness, 164-173L,482-513, 624-2934 microlaminate, 219-89 microlithographicapplication, 147-189 microlithography, 147-177,295-255 micronetwonk, 535-2802 micmphase separation, 410-2451 micropore, 88-1590, 89-1814, 158-2321, 289-381,619-558 micropomus, 29-2136, 72-317 microscopy,431-1174 microsensor, 615-213 microsphere, 332-193,482.467. 659-3816, 724-3721,725-437 microsuspension, 521-185

776

microwave calorimetry, 296-443 crosslinking, 149-63 preheasting, 28-233 processing, 296-438 mixer, 423-257 mixing, 422-133 modulus, 419-89 mold CAD/CAM, 431-1255 cavity fill, 431-1246 cost estimation, 480-51 design, 431-1248, 431-1251, 431-1258 fiber-reinforced, 406-3 f'dling, 423-337 flow analysis, 428-813 hot runner, 431-1242 making, 656-7 material, 431-1236. 431-1240 multi-cavity, 423-271 pricing, 431-1223 release, 432-1339 runner system, 423-278 shrinkage measurement, 429-1040 molding design, 423-299 threaded closure, 423-264 vacuum bag, 127-9U molecular composite,64-201,154-107, 547-1462, 596-891,609-1591 molecular design, 527-2823 molecular dynamics, 355-207, 409-2259, 613-13, 613-27, 613-28, 614-43, 614-53, 729-4054 molecular electronics, 224-793 molecularly doped, 558-686, 744-4526 molecular mechanics calculation, 493-1 molecular modeling, 84-116, 410-2472 molecular orbital method, 142-304 molecular oxygen, 657-3620 molecular recognition,714-105, 714-139 molecular simulation, 614-71 molecular weight determination, 153-2 molecular weight distribution, 36-487, 678-189, 678-195 monolayer, 350-1735, 409-2332 monomericglass, 526-2569 monomethoxypoly(ethyleneglycol), 723-145 Monte Carlo calculation, 658-3698 determination, 614-88 model, 359-681 simulation, 538-3143, 613-39, 614-65 studies, 538-3120 Mooney viscosity, 209-164 mortar, 439-533 mud dispersants, 335-187 Mullins effect, 405-659 muhiallyl monomer, 72-475 muhicritical points, 613-9 multifunctional polymer, 80-807, 362-157 multiphase mixture, 76-177

N

nadimide resin, 723-937 Nation, 165-1097,288-302, 290-440, 344-5, 534-2628, 534-2634, 597-37, 597-55L, 599-3495,654-261 naphthalene-containing polymer, 32-1373 naphthalene, 206-231,288-273 naphthoquinone copolymer,610-41 naphthoquinone diazide, 671-916 natural robber adhesion, 339-95 aging, 552-31 anfioxidant, 738-347 blend, 138-166, 336-355. 340-2537, 654-1091. 721-1219, 735-2047, 742-585, 745-3491 carbon black-filled, 420-288 carbon dispersion, 209-164 oarattve, 65-443 degradation, 420-315 epoxidized, 65-453, 95-3894, 95-3903. 138-166, 336-267. 336-355,340-2537, 600-361,667-19030721-1219, 742-585,745-3491 ©1989 Elsevier Science Publishers Ltd.

extrusion, 546-53 fe~.ilizer, 59-487 filled, 664-371 furnace black mixture, 483-89 ~-irradiated, 165-91 gel structure, 655-465 graft, 165-87, 653-829 green strength, 481-211 latex, 589-643 mechanical properties, 552-31 mixing, 209-156, 209-164 modification, 653-829 polyethylene composite, 483-39 polyethylone-tdled, 83-53, 130-961, 232.688 polystyrene composite, 591.695 polystyrene graft, 403-229 pyridazines, 329 - 1L relaxation, 368-82 silica-f'dled, 336-267 structure, 678-159 transport, 285-34 vulcanization, 91-760, 130-987, 612-261, 742-569 vulcanized, 475-1389 neck propagation, 359.636 negative resist, 670-868 nematic, 231-99,275-1488, 333-57, 658-3731 nematic model compound, 554-551 nematic polymer, 618-472, 618-509, 658-3734 nematogenic siloxane polymer, 212-432, 212-438 network biopolymer, 410-2432 cha'm extansibility, 399-311 characterization, 58-560 constraint release, 160-59 elasticity, 603-3342 end-linked, 160-1 formation, 148-223,538-3098 hydrogen bonding. 286-87 hydrophilic, 720-977 interaction parameter, 729-4048 local structure, 614-86 model, 36-557 photoelastic behavior, 616-252 polymer, 88-1584, 288-285 simulation, 274-1441 in solution, 144-480 statistical mechanics, 621-193 swelling, 159-2611,603-3352 theory, 657-3611 torsional dilatometry, 616-260 viscoelastic behavior, 58-563 neutron reflection, 289-362, 289-364 neutron scauering, 596-787 of blend, 211-386, 362-143 of copolymer solution, 95-1963 of crystallization, 616-268 data treatment, 600-2971 of film formation, 687-738 incoherent scattering, 669-312 of ionomer solution, 414-162 of latex, 38-47 of micellization, 23-3235 of semicrystailine polymer, 269-875 of silica dispersion, 12-836 of solution, 12-886 of star-branched polymer, 204-681, 538-3130 in transesterification, 211-379 wide-angle, 85-25 non-Newtonianflow, 601-781 nickel acrylate polymerization, 713-442 nickelphthalocyanine polymer, 93-237 nickel recovery, 597-65 nitrile polymer, 428-856 nitrile rubber blend, 362-111 bending, 420-367 carboxylated, 600-361 compatibility, 159-2557 composite, 552-1 hydrogenated, 355-139 mixing, 420-195 sealing web, 28-402

POLYMER CON~-I'ENTS

structural analysis, 217-45 nitrocellulose, 153-50, 467-3237 nitro displacement, 288-263,725-457 nitroimine dimer, 618-515 noble metal ion sorption, 134-1443 nomenclature, 304-211,345-2065, 372-769 Nomex, 718405 nondestructive testing, 430-1048 nonequilibriumthermodynamic, 530-1807 nonlinearfinite dement analysis, 426-651 nonlinearoptical, 15-729, 226-23 I, 229-533, 229-575, 229-585, 229-627, 229-633, 230.655, 230-663,485-85, 491-342, 491-5012, 688-936, 692-2559, 692-3241 nonlinearoptics, 230.645, 230-711, 414-1166, 674-1205 nonlinearorganic molecule, 230-699 norbomadiane, 140-8 norbomene polymerization, 464-237, 592-805, 610-258 resin, 294-211 normal force.76-69 normal stress,76-93, 161-567, 739-1265 normal stress difference, 483-102, 601-821, 801-843 Noryl, 363-78, 363-84 novolac, 256-19, 295-280 novolac-based, 18-3173, 294-151,670-846, 670-874 novolac resin, 124-21,138-15 novolak, 730-4106 nuclear magnetic resonance imaging, 615-217 in morphology studies, 282-229 of resin, 588-407 solid-state, 271-24, 278-197 solution, 30-349 spectrophotometry, 469-129 stereochemistry analysis, 617-394 nucleationparameters, 60-999 nucleic acid analog, 155-11,292-185 interaction, 418 -425 polymer, 526-2593 nylon adhesion, 61-1127 air intake manifold, 429-988 amoq~hous, 128-4L bleud, 29-2170, 65-479, 191-9L, 437-1830 block copolymer, 426-577 carbon fiber-reinforced, 126-11L composite fiber, 38-735 fabric, 369-107 flame retardant, 615-203 graft, 599-3371 impact resistance, 126-14 inorganic, 684-335 membrane, 686-670 model compounds, 352-1974 molecular composite, 300-861 NMR, 300-810 RRIM, 342-3029 robber blend, 84-63, 84-71, 84-78 sodium alkyl sulfate adsorption, 126-1126 tensile strength degradation, 263-2213 yam, 693-513 nylon 2/11,475-1563 nylon 4, 63-55, 132-1465 nylon 4/6, 72-423, 126-4L, 349-1607 nylon 4/6-polytetramethylene oxide block nyll~col~°' y m :e r ' ~ o 413-974 blend, 95-3910, 213-47,266-2350, 329-9, 347-481,396-29, 519-552, 523-583, 588-395, 589-553,624-2939 block copolymer, 416-493 carbon fiber-reinforced, 519-329 coating, 607-165 in coatings, 122-627 cold-rolled, 14-1107 copolyamides, 256-4 crystallinity, 131-1363 crystallization, 86-1600, 86-1607, 96-133, 741-1492. 745-751

777

crystal structure, 737-336 derivation, 122-682 DSC, 358-56 dyed, 96-133 effect of aggressive media, 676-2877 electrical conduction, 477-1169 fiber, 462-301,521-55, 557-310, 622-337, 678-165, 689-394 fire retardance, 123-722 gel, 34-965 glass bead composite, 735-1984 glass fiber-filled, 63-77 glass microsphere composite, 482-467 graft, 195-34, 361-251 in high-perfonnancefiber, 741-763 hydration, 273 - 1261 injectionmolding, 215-209 IPN, 724-3619 mechanical properties, 282-209, 676-2877 membrane, 403-143 molecular composite, 64-201 NMR, 214-80, 269-929, 349-1607, 659-3812 reactor, 66%1918 reinforcement, 358-68 RIM, 153-38 size exclusion chromatography, 360-942 solution, 88-1646 star-branched, 286-117 star-shaped, 724-3637 tire cord, 420-386 uniaxially oriented, 155-65 weld line strength, 128-14L nylon 6/6 annealed, 218-84 blend, 371-1447 Brill transition, 352-2000 composite, 31-355 crosslinked, 162-49 labeled, 141-117 moisture effects, 395-157 molecular composite, 64-201,609-1591 molecular dynamics, 288-312 NMR, 349-1607 photochemical degradation, 282-165 plasticizer, 432-1348 polycondensation, 522-351 Raman spectroscopy, 536-2863 thermal decomposttion, 218-84 thermal degradation, 282-165 tire cord, 420-386 toughened, 492-2255 nylon 6/10, 195-9 nylon 11, 81-205,283-327 nylon 12, 283-327, 397-193, 557-307

O

octaalkylpoq~hyrin monomer, 554-593 octacyano phthaloeyaninato polysiloxane, 609-1633 octafluorocyclobutane, 474-2265 octapeptide, 193-525 n-octyl methacrylate copolymer, 156-2077 oil-seal embrittlement, 65-567 Oldroyd-B equation, 69-433 olef'm copolymer, 88-1638, 714-479 copolymerization, 679-363 cyclic, 602-3205 polymerization, 79-2839, 140-21, 267-1499, 267-1525, 267-1539, 287-193,367-195, 477-995, 479-147, 547-1336, 663-349,734-485 reactivity, 145-37 olef'm-containing polymer, 411-35 olefm-sulfur dioxide copolymer, 658-3663 oligobutadiene diol, 675-2751 oligocarbonate (meth)acrylates, 357-15 oligodiene umthane epoxide, 157-2250 oligoester-alkyl(meth)acrylate, 545- I 12 oligoether acrylate cure, 90-1936 oligoethyleneterephthalateoligonxyethylene, 96-121 oligoglycol dimethacrylate, 335-237 oligoimide synthesis, 680-571 oligoisoprene, 145-53 oligo(oxyethylene), 477-1069, 481-365 oligo(oxyethylene) n-alkyl ether, 478-1207 ©1989 Elsevier Science Publishers Ltd.

oligopeptide, 192-185,537-2939 oligopropyleneglycol, 592-831 oligo(trichlorosilyl)styrene,659-3814 ophthalmic hydmgel, 290-488 optical activity,15-519, 617-395, 618-427, 618-435 cable, 674-1182 disk, 303-449U fiber, 79-2861, 673-I 172. 674-1193, 674-1215, 742-24. 745-106 nonlinearity, 221-323 polymer glasses, 366-259 properties, 665-30 rheometry, 531-761 storage. 355-189, 663-353 switching, 148-331 optically active, 17-1039, 18-3337, 21-845, 71-99, 287-181. 331-97. 337-365, 418-439, 471-309, 526-2553, 538-3138, 617-406, 618-421, 724-3589, 725-3789 optically isotropic, 288-337 optically labelled, 151-231 optico-mechanical properties,679-349 optcelectronics,674-1209 order-disordertransition,222-565 ordered polymer, 149-I 17, 293-I 18 organobismuth compo, site,287-215 organoboron antioxldants,355-223 organocomposite, 605-741 organofunctional silane, 291-91, 432-1318 organometallicpolymer, 585-389 organophospha-lambda-azene,287-187 organopolygermane,745-587 organopolysilane,745-587 organosilane polymer, 527-2849, 52%2861 organosilicic block copolymer, 125-181 organosilicon coating, 468-3413 polymer, 147-169, 147-189, 674-1197 organosilylphosphazen¢,28%204, 657-3571 organotin-mediated synthesis, 602-3275 organotin monomer, 662-1827 polymer, 122-654, 136-1053, 151-248,396-59, 683-233,685-471 thiolate, 150-409 organotrichlorosilane, 680-470 orientation, 411-85, 676.2884 oriented media, 205-896 oriented polymer, 26-59, 75-115, 150-420, 669-791,673-1147 orthocarbonatepolymerization, 539-3188 orthopaedic material, 270-167 oscillatory flow, 483-176 osmotic device, 134-279 outgasing, 97-307 1,4,5-oxadithio-cycloheptane, 395-288 2-oxazolinepolymerization,527-2749, 536-2878, 610-55 oxetane oligomerization,539-1217 oxidation, 282-185, 355-121 oxine cellulose. 586-159 oxirane polymerization,539-1225.724-3651 oxycellulose, 557-258 oxychitin, 725-3817 oxychitosan, 406-329 N,N'-oxydimethylenebisemide,73-725 oxygen barrier, 285-24, 291-539 index, 27-351, 27-386. 130-1051, 150-426, 608-181 permeability, 527-2761 permeation, 266-1439 sorption, 539-3186 oxypropylenecellnlose,676-2914 8-oxyquinolinepolycondensation,667- 1851 ozone, 419-131,474-2313

P

Pace-Datyner theory, 529-1663 packaging. 128-5U. 285-15,285-3 I,330-9U, 417-639, 422-183, 428-856, 429-957, 473-56 paint,22-84

POLYMER CONTENTS

paired polymer, 676-2922 ipalalladium-catalyzed,482-415 ladium-containing, 678-260 paper, 65-527, 620-89, 621-238, 741-267 paraelectric phase, 303-583 paraffin, 38-753, 165-119, 352-1995, 408-2169 paramagnetic, 84-165, 88-1584, 662-1891 parison profile, 429-954 partition coefficient,350-1775 PBI resin, 302-21,401-6L peel strength, 91-794 pelletizing, 422-175 ~.llicular resin, 91-257 ntadecylphenylacrylate, 63-33 3-pentadecylphenylmethacrylate, 63-33 pentaerythritol-containing, 132-1699 pentaerythritol esterification, 124-9 4-pontamethyldisilylstyrene,474-2203 penultimate effect, 78-3534, 725-417 pepsin, 593-207 peptide ct helix, 331-995 Mtemating, 192-193, 192-203, 192-215 aminosuceinyl, 192-139 [3folding, 191-109 bioactive, 192-247 conformation, 191-1,191-91,466-169 cyclic, 193-385 graft copolymer,616.336 ion binding, 193-353 ion channel, 192-259 ionophore activity, 192-273 lipid interaction, 192-267 macrocyclic,288-121 methanopyroglutamicacid, 192-123 NMR, 193-465 synthesis, 556.259 X-ray crystallography,191-41 peptizing agent, 36-561 peracid polymer, 599-3451 percolation, 29-2170, 149-55, 164-102, 165-83 perfluorinated ether, 296-448 ionomer, 163-2101, 350-1743, 514-401 membrane, 88-1597, 163-76 perfluoroalkylated, 660-1561 perfluorocarboxylatecation-exchange, 199-143 perfluompolyether, 62-1211, 135-951 perfluorosulfonate ionomer, 142-220, 514-370, 657-3594 peffluorosulfonicacid ionomer, 350-1730 permeability, 217-3U, 291-539,403-177 Permion membrane, 264-243,264-259 peroxide, 21-867, 543-283 peroxycarbamate, 365-253 persistence length, 221-385 pervaporization, 77-993.82-421,131-1259, 203-169, 207-399, 403-143,468-3357, 468-3375, 468-3385, 525-161,598-137 pesticide-polymerresearch, 291-17 phantom network. 209-147 pharmaceutical applications, 556-231 pharmaceutical release, 290-474 pharmacologicalactivity, 360-949 pharmacologicalapplications, 258-191 pharmacy applications, 688-629 phase separation, 156-2083,735-2104 phase-transfer catalyst, 408-2213, 599-3383, 736-261 phase transfer-catalyzed.74-33 phase transition, 513-128,530-1795 phenanthrene, 288-273, 408-2207 phenol reaction,722-1253 phenol-formaldehyderesin, 8-47, 126-3, 351-1813, 521-163,596-825 phenolic components, 129-8L composite, 337-8U foam, 402-31 molding compound,433-1445 preform, 42%802 resorcinol-modified.412-33 phenolic resin azide-containing, 15-617

778

cellulosicpaper, 357-24, 358-53 chopped-strand mate, 262-159 cure,63-I filled, 28-39 filler, 27-389 glass fiber-reinforced,27-363, 27-391 ion-sorption620-71L in laminated plastics, 480-95 lignin-modified, 583-324 Mark-Houwink-Sakurada equation, 213-97, 722-1305 nitrile hutadiene composite,430-1134 photooxidation,733-2311 properties, 65-499 silicone-grafted336-285 in vulcanization, 368-107 vinyl compounds phenolic triazine resin, 741-1488 phenol-styreneoligomer, 150-414 phenol-tung oil reaction, 586.87, 586-103 phenoplastic, 676-2857 phenoxy blend, 36-587, 152-517,304-1021, 414-1155, 414-1160 miscibility, 468-3459 phenoxyterephthalic acid, 479-211 1-(p-substituted phenyl)-2-vinylcyclopropane polymerization,528-3151 phenylacetylene, 156-2136,746.161 ~henyl-alkynlpolymer, 684-330 -phenyl-aziridine polymerization,361-243 phenylbenzoate side group, 88-1609 phenylene oxide copolymer,513-84 phenylene polymers, 729-4060 4-(1-phenyl-ethyl)-phenoxymethykoxirane(H) polymerization, 592-813 1-phenylethylpotassium,24-2521 N-phenylmaleimide copolymer,731-2141 copolymedzation,34-979, 352-2025, 598-3227 polymerization, 23-3324 reactivity, 479-195 phenyl methacrylate, 334-117 4-(phenyl-methyl)-phenoxymethyloxirane(I) polymerization, 592-813 a-phenyl-o-nitrobenzylester pendant, 61-1133 phenyl oxazoline block copolymer,724-3603 phenylquinoxaline, 528-2951,724-969 phenyhrichlorosilane, 736-253 l-(p-substituted phenyl)-2-vinylcyclopropane polymerization.208-85 2-phenyl-3-vinyloxirane, 197-1815 phosphatidylcholinebilayer. 292-239 phosphazene, 533-2596, 595-645, 657-3511 phospholipid, 140-66,258-169, 624-71 phosphonitrile fluoroelastomer, 28-227 phosphorus additives, 30-463 phosphorus-containing, 17-1089,288-293, 336-275 photoablation, 293-64 photoacid, 682-62,684-269 photoacoustic measurement, 559-838 monitoring, 529-313 resin, 684-307 spectroscopy,275-1486, 282-121,300-875, 301-321,301-371,335-159, 471-43, 594-765, 683-132 photoactive, 224-787, 684-278 photobleachable dye, 671-898 photobleaching, 295-264 photocarrier, 220-299 photochromic,20-773, 122-613,617-410 photocleavable bond, 145-69 photoconductive,477-1025 photoconductivity,226-175, 230-669, 485-73, 485-103, 492-77, 547-1328 photocopolymerization, 140-21 photocrosslinkable, 335-167 photocrosslinking, 294-147, 294-211, 294-228, 335-173 photodetection, 133-1255 photodimerizable probe, 29-2261 photodynamics,328-77 photoelastic technique, 427-790

@1989 Elsevier Science Publishers Ltd.

photoelectron spectroscopy, 485-109 photoexeitation, 226-167, 226-181, 485-121,487-425 photofading, 93-620 photoinduced conformation, 77-3419 photoinitiated, 492-379 photoinitiation, 79-2769, 79-2781, 492-353 photoinitiator, 147-177, 292-1,292-6, 292-26, 401-509, 492-365,600-347, 657-3607, 682-76, 683-195,684-411 photolabile unit, 151-297, 203-623 photoluminescence, 220-293, 220-311, 221-365 photoluminescent probe, 617-342 photon-correlation, 142-211,477-1119, 674-623,729-3998 photonic applications, 674-1197 photooxidation, 355-85 photooxidized, 551-247 photopolymer, 722-1271 photopolymerization, 25 -771,147-209, 148-223, 165-1167, 205-791,292-15, 293-122, 295-361. 537-2962 photoradical aging, 165 - 151 photoreactive, 36-591,539-3184 photo-rearrangement, 61-1133 photoreduetion, 681-615 photoresist, 138-15, 163-799, 232-439, 295-285, 295-366. 301-355, 413-1091, 670-846, 670-891, 671-928, 671-960, 684-283, 731-2099 photoresponsive, 58-209, 71-263, 80-797, 272-1115, 331-97 photosensible, 540-1369 photosensitive, 146-21,281 - 145L, 294-160, 540-1325, 670-887, 731-2099 photosensitized, 140-61 photosensitizer, 133-1189, 410-2516, 541-1471 photosetting, 727-24 photostabilization, 355-85 photostabilizer, 19-505, 57-57, 150-271, 612-125 phthalocyanine copolyoxyethylene, 492-83 phthalocyanine, 24-2533, 345-2109, 476-961, 492-15 phthalonitrile-based, 18-3199 phthalonitrile polymer, 293-79 physical aging, 78-3490, 624-2934, 655-121 piezoelectric, 359-698,609-1639 pigments, 656-36 pipe, 21-57, 126-7L, 425-546, 740-1396 piperidyl group, 328-121 piq polymer, 148-349 pith-phenol resin, 58-567, 58-574 pivalolactone-b-oxyethylene,602-3211 plane flow, 69-85 plane-PoiseuiUe flow, 530-691 plasma-deposited, 298-675 plasma discharge, 92-36 plasma-etching, 474-2265, 491-5096 plasma-induced graft, 403-165 plasma-modified, 132-1465, 266-1267 plasma polymerization, 22-91, 63 -91, 135-795, 200-305,332-171,363-109, 428-915,610-15, 720-8,725-3799 phsma-polymerized, 94-391, 135-881, 526-2633 plasma processing, 163-1U plasma separation, 525-47 plasma-treated, 437-1900, 594-687 plasma treatment, 520-12U plasticization, 75-205 plasticizer, 84-165, 23 1-246, 285-5 plastic lens, 77-963,337-5U plastic literature, 300-880 plastic magnet, 423-244 plastic yielding, 475-1529 platelet adhesion, 200-315 latinum carrier, 723-75 oisson's ratio, 96-4406, 673:1107 polarization, 95-269 polaron, 228-501,229-521,229-551, 414-1166, 486-203,489-151,493-603 pollutant diffusion, 522-227 poly[(acyloxy)aloxane], 141-79

POLYMER CONTENTS

polyacene, 224-801,664-427 polyacenic, 488-489 polyacetal, 431-1163, 653 -951 poly(acetaldehyde-co-chloral),267-1571 poly(4-acetoxystyrene), 359-686 poly(~t-acetoxystyrene), 685-427 polyacetylene alkali metal-doped, 22%339 ammonium doping, 226-109 block copolymer, 151-195 breathers, 228-419 chemical reduction, 226-115 c/s-rich, 225-51 condensed phase mute, 225-99 conductivity, 227-369 crystal stmcture, 25-2657, 25-2671, 25-2687 dispersion curves, 489-227 dopant, 93-225, 684-326 doped, 224-747, 493-109, 690-191, 693-1048 Durham, 226-127,226-181 film, 15-643, 225-1,489-183 helical. 493-1 high conductivity, 225-43 highly conducting, 225-35 highly oriented, 225-19, 226-175, 226-215, 226-237 high-sigma. 225-11 intercalated, 226-147 intercalation, 353-737 iodine-doped, 482-523 K-doped, 226-141 lattice instability, 227-275 localization, 227-267 low crystallinity, 225-57 morphology, 334-75 n-doping, 147-99 newly processed, 225-27 new type, 147-115 non -fibrous, 286-162 nonlinear optical, 226-159, 230-655 optical constants, 745-33 orientation, 136-105 oriented, 25-2657, 25-2671, 25-2687, 226-197, 623-141 oxygen permeation, 346-1261 p-doped, 147-107, 226-135 photoconductive, 652-5M photoconductivity, 230-675 photoexcited state. 228-433 polaron-lattice, 228-495 polymer precursor, 283 -279 potassium-doped, 228-387 potential, 94-327 processed, 286-161 properties, 540-1309 radiation effects, 266-1197 Raman spectroscopy, 227-287, 227-287, 227-331,227-345,691-335 reduction. 24-2617 segmented, 227-259, 228-407, 623-9 silicon-containing, 266-1197 soliton, 161-196, 228-381,228-427, 228-447, 228-469 soluble, 225-63 spin-orbit interaction, 228-483 stabilization, 38-1124 structural characterization, 490-395 substituted, 346-1261 synthesis, 489-25 1 in tetrafluoroboric acid. 25-721 TSC, 147-129 poly(substituted-acetylene), 131-1259 c/s-polyacetylene, 227-317, 229-527, 230-721,230-721 cis.trans-polyacetylene, 227-281 trans-polyacetylene, 203-612, 211-425, 226-155, 226-167, 226-189, 226-209, 226-225, 227-247, 227-253,227-295, 227-309, 227-323, 22%353,228-393, 228-399, 228-439. 228-477, 228-489, 229-513,230-663.489-135 polyacetylene-polyisoprene,225-69, 230-727 poly(N-acetylethylenimine).407-2040 poly(acryl amide), 256-8 polyacrylamide

779

biomimetic, 556-211 carbon fiber, 693-536

Cr(II/) reaction, 231-250 elongation flow, 29-2182 excluded volume, 362-114 fiber spinning, 70-267 gel, 400-471,401-477, 553-467,603-3356 hydrogel, 352-2007 hydrolysis, 86-1101,522-297 hydrolyzed, 38-306 silica coacervation, 348-161 sorbent, 620-29,620-29 terpolymer, 275-1497 poly(acrylamide-co-sodium acrylate), 29-2182 poly(acryl-amido-4-aminoantipyfinyl), 327-112 poly(2-acrylamidophenol), 32-83 poly(2-acrylamidopyridine).283-51 polyacrylate blend, 154-85 codeposition, 152-353 IPN, 681-651 latex, 211-416 liquid crystal, 72-453,407-2062, 618-460 in microencapsulation, 649-380 properties, 674-633 side chain, 163-1993 sulfur-containing, 164-121 with thiocarboxylate moiety, 334-133 poly(acrylic acid) blend, 195-81. 263-2275, 272-1159 bound water. 467-3137 complex, 67-359, 141-164, 206-1000, 272-1159 conformation, 351-1818 v-irradiated, 346-1187 graft, 403-143 IPN, 418-393 molecular weight, 164-363 solution, 161-628 thickener, 684-407 poly(acrylie acid-co-vinyl alcohol), 517-295 polyacrylonitrile block, 65-581 bromine interaction, 134-1367 fiber, 65-553 graft, 678q65 hollow fiber, 686-699 ion beam-irradiated, 297-568 isotactic, 407-2054 monodispersed, 60-1020 montmoriUonite interaction, 37-3572 swelling, 62-1195 thermal degradation, 157-2142, 522-265 poly(acrylonitrile-co-methylacrylate), 546-1187 acrylonitrile-polypyrrole,654-1173 y(acryloyl chloride), 164-769, 400-431 polyacryl system, 540-1369 poly[(acylimino)alkylene],657-3540 poly(akylarylphosphine)siloxene,522-271 polyalcohol diblock, 598-3251 polyalkane imide, 90-1930 polyalkanimide, 681-645 polyalkoxythiophene, 222-487 poly(N-alkylacrylamide),532-437 poly(n-alkylacrylate),269-743 poly(alkylaniline), 204-649 poly(alkyl/arylphosphazene),682-114 poly(alkyl-2-cyanoacrylate),413 - 1091 poly(alkylene ether carbonate), 132-149 i poly(alkylene ether carbonate) did, 64-183 poly(alkylene phosphate), 135-763, 662-1903 poly(alkylene terephthalate), 729-3974 poly(3-n-alkyl-4-hydroxybenzoate), 82-373 poly(n-alkylisocyanate).287-174 poly(alkyl methacrylate), 352-2015, 677-66 poly(alkylmethacrylate-co-vinylimidazole)cobaltporphyrin, 532-375 poly(2-alkyl-1.4-phenylene terephthalate), 592-847 polyalkylsulfonatethiophene,222-495

~ly

©1989 Elsevier Science Publishers Ltd.

poly0-alkylthiophene), 94-297, 220-311, 221-349, 221-365, 221-377, 221-427, 221-435, 221-451,222-473,225-863, 286-145, 691-359 poly(3-alkyl-1-vinylimidazolium),654-1077 poly(N-alkyl-4-vinylpyridiniumhalide), 654-1025 polyallylation, 610-9 poly(atlylsilane), 616-245 poly(amic acid) breakdone, 679-295 cation interaction, 475-1485 crystallosolvate formation, 662-1799 esters, 96-145 imidization, 272-1174 isomer composition, 159-2565 membrane, 532-445 mixture, 294-179 viscosity, 360-893 polyamide aging. 416-389, 677-60 aliphatic, 32-25 aliphatic-asomatic,345-1985 from 2,3-bis(4-aminophenyl)quinoxaline, 414-182 with amino residues, 290-449 from 2,6-di(3-aminostyryl)pyridine, 589-557L aromatic, 90-1881, 596-891 aromatic-aliphatic, 61-1123 with arylene sulfone ether linkage, 73-583 asymmetric, 288-332 azoaromatic, 467-3281 blend, 32-1416, 204-742, 371-1316, 418-679, 492-2025, 521-123 block copolymer, 81-225 boundary, 36-529 coextruded, 139-33 conformation, 300-810 copolymer, 137-673,521-123 crack growth, 29-2152 crosslinkable, 400-455 crystalline composition, 300-810 with cyclobutane ring, 19-3397 with diacetylene group, 408-2130 with diaza-18-cmwn-6-ether, 59-515 with diphenyl phosphate, 596-761 disiloxane-containing, 675-661 with drug carrier function, 617-361 with 6F groups, 671-954 fluorine-containing, 599-3393 glass-reinforced, 28-241 glass fiber-reinforced, 407-23,533-37, 651-453 GPC, 18-3141, 158-2445 heat-resistant, 465-4L helical, 349-1540 hydrogen bonding, 548-607 hydrophilic, 345-1915 liquid crystal, 59-515, 539-1303 metallized, 533-34 microcapsule, 67-27, 67-43, 67-67, 744-455 molding, 271-27 morphology, 204-666, 204-666 multicomponent system, 80-37 network, 286-125, 603-3361 with nitro group, 479-187 oxygen permeation, 285-9 PACM-based, 13-473 with parabanie structure, 62-1207 photodeavage, 19-3397 photodegradation, 677-43 polymerization kinetics, 296-429 rod-like, 278-57 simulation, 614-51 soluble, 299-757 strength, 279-275 substrate, 36-587 synthesis, 660-1507 thermally reactive, 18-3213 thermooxidative crosslinking, 19-3409 thennooxidative yellowing, 586-71 toughened, 492-2165 unsaturated aromatic, 293-98 viscosity, 157-2276

POLYMER CONTENTS

poly(amide amine), 286-121 poly(amide-hydrazide),724-1007 poly(amide imide), 17-I 147, 21-895, 163-2695, 295-290, 522-305, 596-891,731-2119 poly(amide-sulfonamide),265-1115 polyamididation, 73-507 poly(amido-amine), 515-299, 620-37, 620-37 polyamidobenzimidazole,679-406 polyamidoether, 132-1559 polyamidoimide, 156-2054 poly(amidothioetheramine),362-157 poly(amidourethane), 414-1127 polyamidoxime, 724-3759 polyamine, 515-291,554-577, 649-393, 661-1635, 683-209, 683-214 poly(amino acid), 267-1665 poly(4-aminostyrene), 534-2607 polyammonimn salt, 157-2255 polyampholyte, 159-2505, 256-36, 279-281, 538-3138, 585-401,585-405polyanhydride, 290-460, 290-464, 290-466, 290-496, 408-2117, 602-3200, 731-2133 poly(l,4-anhydro-D-glucitol), 24-3342 polyaniline, 38-169, 38-195, 80-829, 93-203, 94-349, 94-383, 161-126, 223-629, 223-639, 223-647, 224-769, 282-221, 286-147, 286-149, 28%226, 288-317, 299-751,350-1669, 359-628, 485-141, 485-151,486-163,486-169. 486-175, 486-185, 486-193,486-203.486-211, 486-227, 486-235, 486-243,486-251, 486-257, 486-271,486-277, 486-285, 486-291,486-297, 486-303, 486-313, 487-321,487-329, 48%337,487-349, 487-371,487-377, 48%389, 487-395, 487-401,487-409, 487-417, 487-433, 487-445, 487-451,487-457, 489-151, 489-199, 489-257, 490-321,493-87, 534-2644, 549-194, 549-196, 603-3323, 623-51,623-95, 688-911,688-916, 691-369, 745-765 polyanion, 616-335 polyanionic, 16-873 poly(9,10-anthrylenetrimethylene), 731-2071 poly(aromatic diacetylene), 78-3525 poly(N-arylaniline),487-383 polyarylate, 337-8L blend, 668-175, 530-1951, 736-322 copolymer, 287-252 fluorine-containing, 266-1425 from phenylhydtoquinone, 202-75 from phenylindanedicarbonylchloride, 135-979 solvent-induced embrittlement, 529-1629 polyarylene, 680-594 poly(arylene ether), 288-293 poly(arylene ether ketone), 287-252, 296-438, 604-3486 poly(arylene ether ketone)-polyarylate, 618-441 poly(arylene ether sulfone), 15-705, 58-252, 548-1552 poly(arylene ether) sulfone-polyarylate " copolymer, 618-464 poly(arylene ether) sulfonepoly(oxybenzoate), 295-322 poly(arylene sulfone oxide), 680-495 poly(aryl ether benzoxozole), 297-522 poly(aryl ether ketone), 214-77 poly(aryline imide), 599-3343 poly(arylsulfone imide), 135-915 poly(3-aryl-2,5-thienylene), 539-1233 polyazine, 96-177 poly(azine-ether), 207-305 polyazomethine, 14-1057, 96-177, 212-494, 660-1547 poly(azomethine sulfone), 295-316 poly(p-benzamide), 370-141, 611-292 polybenzimidazole, 91-277, 367-89, 413-1012, 527-2815, 598-3237 poly(benzimidazole-urea),527-2805 poly(benzo-19-crown-6), 675-649 poly(2,6-benzothiazole),657-3514 poly(benzoxazinone), 136-1017 poly(benzoxazole), 298-629, 657-3514,

780

681-634 polybenzvalene, 225-57 N-benzylaniline), 669-308 y(~-benzyl L-aspartate), 659-3802 poly(¥-benzyl-L-glutamate),120-130, 142-328, 158-2364, 348-151,360-849, 408-2138, 408-2145, 733-457 poly(benzyl methacrylate), 609-1685 poly(3,3-bisazidomethyl oxetane), 64-267 poly(3,3-bisethoxymethyl oxetane), 64-267 polyCoisimide),72-375 polyCoisphenolA-diethylene glycol carbonate), 142-215 p~ly(bisphenol A hydroxy ether), 414-1160 y(t-BOC-cx-methylstyrene),537-2999 poly(t-BOC-styrene), 537-2999 poly(t-BOC-styrene sulfone), 537-2999 polybutadiene adhesion, 339-95 adsorption, 624-319 anthracene-labeled, 686-713 aroclor solution, 142-295 blend, 77-3438, 349-1618, 680-594 block copolymer, 275-1493 carboxylated, 28-215 carboxy-terrninated,530-1911 chlorinated, 77-3438 dynamic shear properties, 360-842 epoxide, 144-9 epoxidized, 13-1043, 122-701, 132-1685 excimer fluorescence, 84-45 fluorescence decay, 84-51 functionalized, 648-1 gas sorption, 726-2243 graft, 286-109 hydrocarbon diffusion, 669-773 hydrogenated, 536-2857 hydrogenation, 125-165 hydroxylated, 18-3167 hydroxyl-terminated, 135-829 IPN, 141-91 linear, 614-130 microsphere, 78-3442 mobility, 84-45 modification, 396-93 network, 538-3106, 538-3111 nitration, 334-63 NMR, 725-451 photooxidation, 415-185 ring, 368-33 star-shaped, 351-1897 syndiotactic, 29-2174 ultrasonic absorption, 360-842 zero-shear viscosity, 91-812, 274-1437 c/s- 1,4-polybutadiene crosslinked, 160-30 electrical properties, 161-136 longitudinal viscosity, 60-975 NMR, 141-122 oxidation, 483-31 photostabilizer, 612-125 stress crystallized, 522-249 1,4-trans-polybutadiene, 354-875, 603-3318 1,2-polybutadiene difluorocarbene reaction, 144-481 graft, 197-1993 thermoplastic elastomer, 31 - 1 transitions, 66-729 poly(butadiene-co-acrylonitrile), 195-9, 299-792 polybutadiene-ammoniumperchlorate, 341-2845 polybutadiene methylstyrene, 160-2672 polybutadiene-polyacrylateblock, 157-2242 polybutadiene-poly(methacrylate),288-261 poly(cix.butadiene-co- 1,2-vinylbutadiene), 365-221 polybutadienyl lithium, 675-2774 polybutene-l, 342-69 poly(l-butene sulfone)-8polydimethyisiloxane, 614-134 poly(4-t-butoxy-a-methylstyrene), 203-509, 685-422 poly(4-t-butoxystyrene),203-509, 685-422 polyCoutylacrylate), 654-1145

©1989 Elsevier Science Publishers Ltd.

poly(butyl acrylate-co-acrylic acid), 281-183L polybutylene, 433-1394 poly(butylcneadipate)cliol, 420-461 poly(butylene isophthalate), 213-77 poly(butylene isophthalate-coterephthalate), 282-239 polybutyleneoxyglycol, 686-584 poly(butylene terephthalate) 0t-13transition, 352-2014 annealed, 559-2637 blend, 166-105, 277-661,281-137, 281-145U. 413-1113 cocrystallization, 728-3908 composite, 31-355 copolyester, 548-1472 creep, 161-634 glass fiber-reinforced, 426-659 impurities, 122-661 melting, 475-1543 phase transition, 273-1267 rubber modification, 360-835 poly(butylene terephthalate-copolyglycolic acid), 615-197 poly(n-butyl methacrylate), 17-107 I, 75-405, 90-1872, 132-1551, 522-291,729-4019 poly(n-butyl methacrylate -co-isobutyl methacrylate), 657-3578 poly[butyl methacrylate-co-N-methyl-N-(4vinylphenethyl)ethylenediamine]g-poly(L-glutamic acid), 79-2731 poly(t-butyl methacrylate-co- styrene), 64-299 poly[(butyl methacrylate)-co-(4vinylpyridine)], 277-145 poly[bis (4-t-butylphenoxy)phosphazene], 271-1031 poly(di-n-butylsilane), 222-559 poly(di-n -butylsilylene), 538-3055 poly(t -butylstyrene), 549-220, 651-736 poly(3 -n-butylthiophene) tetrachloroferrate, 490-335 polycaproamide, 89-1866 poly(g-caprolactam), 413-1099 polycaprolactone blend, 78-3458, 86-1590, 359-595, 430-1074 crosslinking, 33-1484 crystallization. 75-155 in drug release, 291-151 polycarbazole, 687-849 puly(~-carbobenzoxy L-lysine), 76-937 polycarbonate adsorption. 59-493 with aromatic side group, 559-283 azobenzene photoisomerization, 203-558 beta process, 410-2466 birefringence, 414-1143 blend, 7-407, 80-801,128-5L, 130-1153, 143-418, 197-1837, 213-47, 215-244, 274-1402, 277-661,281-137, 281-145U, 300-866, 304-313,334-95, 364-359, 407-20, 408-2157, 413-1113, 417-573,417-600. 423-323,427-702, 427-707, 431-1205, 43%1843, 437-1866, 543-227, 547-1287, 559-165, 720-6U, 720-985, 725-421 block copolymer, 140-25 blow molding, 428-911 camphorquinone diffusion, 352-2019 carbon dioxide-induced conditioning, 344-103 carbon dioxide transport, 75-97 conformation. 408-2149 crack growth. 559-2358 crystalline analog. 535-2731 cyclic. 619-575.619-577 decarboxylation, 614-117 deformation. 75-325 dielectric studies, 475-1519 diffusion. 78-3519 ductile-brittle transition, 300-851 for electronic applications, 424-393 excimer laser treatment, 232-569 foam, 140-22 gas permeation, 684-378, 686-639 halogen-containing, 684-378,686-639

POLYMER CONTENTS

interchange, 588-395 large deformation, 346-1235 liquid crystal, 541-265 modification, 433 - 1371 molecular motions, 77-3396, 535-2731 molecular structure, 613-36 monolayer, 12-832, 261-139 oligomer, 615-140 optical disk, 439-1739 optical storage, 271-20 oriented, 352-2019 plasma interaction, 84-40 plasticizer, 156-2072 radiolytic degradation, 356-245 relaxation, 19-2463 reprocessing, 719-891 secondary relaxation, 475 -1519 shear yielding, 624-2687 solvent crazing, 67-385 tetramethylbisphenol-A, 32-51 thermal aging, 85-25 thermal degradation, 738-285 thermal expansion coefficient, 425-521 thermogravimetric analysis, 559-283 thermotropie aromatic, 664-383 toughening, 358-51L toughness, 545-120 transesterification, 547-1287 ultrahigh molecular weight, 619-569 welded, 425-470 welding, 425-479 weld-line, 434-1566 poly(carbonate-co- thiocarbonate), 589-549 polycarbonate urethane siloxane block copolymer, 676-2810 poly(carbon dichalcogenide), 16-799 polycarbosilane, 371-1177, 371-1263, 624-918, 745-1119 poly[N-(4-cad~oxybenzyl)-L-omithine], 532-381 poPOi~]Ycarboxylate,96-1166 y(carboxylic acid), 57-80, 723-65 y[S-(carboxymethyl)-L-cysteine], 204-64O poly[(0~.arboxy)oligo(oxyethylene) methacrylate], 350-1771 polycatafusene, 604-3506 polychelate, 165-169 polychloral, 287-181 Y(chloroacetaldehyde), 271 - 1042 y(chloroalkyl methacrylate), 267-1589 y{ 1-[4-(2-chloroethyl)phenyl]ethylene, 207-241 poly(4-chloromethylstyrene), 282-227 poly(4 -chloromethylstyrene-co- styrene), 282-227 poly(chloro- 1,4-phenylene terephthalateco-4,4'-hexamethylenedioxybisbenzoate), 359-732 polychloroprene antioxidant, 368-13 compatibility, 159-2557 in copolymerization, 132-1551 crosslinked, 58-590 crosslinking, 368-1 y [ 4 - O -cb-loroprow1)styrene], 526-2539 y(2-chlorostyrene), 534-2720, 726-2159 polychlorotrifluoroethylene, 91-229, 744-2330 poly(chlorotrifluomethylene-co-vinylidene fluoride), 132-1481, 132-1567 polycondonsation, 278-117, 279-347 poly(crown ether), 535-2845, 539-3184, 731-2091 cyanurate, 335-193 y([5-cyclodextrin), 153-61 poly(cyclohexyl methacrylate), 142-211 poly(cyclohexyl methacrylate-co- styrene), 36-551 poly(cyclohexylmethyl methacrylate), 609-1685 polycyclooctyne, 533-2569 polycyclopentadiene, 151-304,686-718, 692-3235 polycyclotrimerization, 615-158, 677-122 poly(decamethylene 4,4'-terephthaloyldioxydibenzoate), 145-175

~poi

~

~y

781

polydiacetylene, 141-188,226-159, 229-557, 229-563,229-569, 229-605,229-613, 229-621,229-627, 229-633,229-639, 230-675, 273-1208, 288-255, 410-2427, 413-1027, 413-1063, 438-923, 538-3153,659-3819, 684-364 polydiacetylene-4BCMU, 485-85 p~]y(dialkylfumarate), 365-215, 418-433 y(dialkylphenyl methacrylate), 493-75 y(diallylamine), 91-285 poly(diallyldimethylammonium chlofide-gacrylamide), 16-999 poly(diamidodiurea), 663-1919 poly(diamidodiurethane), 663 - 1919 poly(2,3 -diaminophenazine), 94-339, 745-113 poly[bis (2,6-diaminopyridine sulfoxidc)], 714-545 polyCois-2,6-diaminopyridinesulphoxide), 334-125 poly(dian carbonate), 551-267 poly(3,6-dibromo-N-vinylcarbazole), 205-782 polydibutylgermane, 132-1589 poly(exo-dicyclopentadiene), 208-73 polydiene, 293-36, 300*832, 598-325 1 poly(diethyloneglycol isophthalate), 29-2203 poly(3,3-diethyl oxetane), 213-85, 719-929 polydiethylsiloxaae, 650-681,679-329 polyO ,3 -diethylthietane), 548-571 lY(1,1 '-difluoroethylene), 65-487 y(dihalophenylene oxide), 151-344, 588-367 poly(dihydroisothianaphthene), 691-395 poly(3,4-diisopropylidene cyclobutene), 76-443 poly(2,5 -dimethoxy- 1,4-phenylene vinylene), 481-409 poly(N,N-dimethylacrylamide), 351-1813 poly(N ,N-dimethylacrylamide-coaerylamide), 141-164 poly(N,N-dimethyl-aminoethyl acrylate), 592-857 poly(2-dimethylaminoethyl methacrylate), 71-1, 73-555 poly(2-dimethylaminoethyl methacrylate-coN-phenylmaleimide), 732-2229 poly(4-N,N-dimethylaminostyrene-co. styrene), 361-319 poly(dimethyl itaconate), 400-465 poly[3 -dimethyl (methacryloyloxyethyl) ammonium propanesulfonate], 467-3263 poly(3,3 -dimethyloxetane), 276-613 poly(2.6-dimethyl-l,4-phenylene oxide), blend, 29-2235, 285-57, 371-1316, 371-1447, 394-155,492-2025, 492-2221,541-259, 547-1414, 590-571, 600-1979 bond strength, 677-142 brombenzylated, 590-571 composite, 544-614 electrophilic substitution, 540-1433 foam, 33-1501 heat of formation, 677-142 injection molded, 739-1298 IPN, 19-3391, 141-91,529-285,599-3363 isocyanate-modified, 552-51 melt rheology, 20-789 membrane, 7-1, 7-15 permeation, 530-1927 sulfonated, 7-1,7-15 poly(2,6-dimethyl- 1,4-phenylene oxide)polydimethylsiloxane system, 479-137 poly(1,1 -dimethyl-l-sila-c/s-pent-3-ene), 273-1300, 281-173, 537-2987 polydimethylsiloxane chain extension, 276-495 crosslinking, 88-1651 crystallization, 74-1L dihydroxy, 62-1145, 337-371 did end-group, 212-553 end*linked, 282-235 y-irradiated, 439-561 graft, 131-1259 in hormone delivery, 291-125

©1989 Elsevier Science Publishers Ltd.

hydroxyl-terminated. 84-143 IPN, 19-3391. 152-364 macroglycol. 231-23 macromonomer. 151-333 membrane. 541-287 methyl-terminated. 84-143 mixture. 122-687 in pervaporation, 7%993 segment, 555-109 silica-adsorption, 84-143 telechelic star, 728-3886 ternary mixture, 205-816, 360-897 thermal characteristic, 287-172 poly(dimethylsiloxane-co-methylvinylsiloxane), 408-2111 polydimethylsiloxene-poly(methyl methacrylate) block, 288-259 poly(dimethylsiloxane-co-sfloxane), 200-169 poly(dimethylsilylene-co-methylphenylsilylene), 612-135 poly[2,5-bis(dimethylsilyl)thiophene], 281-133 poly[2-((3,5-dinitrobenzoyl)oxy)ethyl methacrylate], 409-2266 Polydioxepane-polydimethylsiloxaneblock copolymer, 287-219 polydioxolane, 478-61 poly(diphenylamine)sulfide, 89-1800 poly(diphenylene phthalide), 88-1572 poly(4,4'-diphenylether temphthalamide), 129-867 poly(diphenyl-2-pyridylmethyl methacrylate), 418-439 poly(4,4'-diphenylsulfone terephthalamide), 266-1359 polydipropylsiloxane,676-2845 polydithieno[3,4-b:3',4'-d]thiophene, 222-507. 222-527 polydithienobenzene. 222-521 polydithiocarbonate. 474-2277 poly(ditrimethylene terephthalate). 96-195 Poly(l.4-divinylbenzene peroxide). 725-455 poly(3-dodecylthiophene). 94-369 polyelectrolyte acrylamide-based, 617-348 adsorption. 38-278, 61%387, 744-155 amphiphilic, 366-267 amphoteric character, 12-906 anionic. 232-566 antigene, 278-265 branch, 413-1068 cationic, 617-384 complex, 25-727, 67-359, 91-91,263-2275, 270-1043, 278-249, 534-2656, 649-191,676-2830, 677-49, 725-3855 composite, 286-151 conformation, 78-3498 counterion polarization, 274-1359 diffusion, 535-2742 in dye transport, 370-159 electrophoresis. 409-2270 in flocculation. 95-89 gel. 23-3254 graft. 165-211 intrinsic viscosity. 549-223 ion-binding. 134-1385. 206-995 ionization. 617-368 model compound. 477-1079 network. 732-2211 new. 278-221 oppositely charged. 410-2516 on particle deposition. 744-107 phase separat,on. 735-2112 probe diffusion. 729-4068 protonation. 439-165 scattering, 303-449L segmented, 303-493 small-angle scauering, 29-2216 sol-gel transformation, 62-1173 soluble. 279-297 solution properties, 232-511,274-1356, 409-2356 statistical theory, 23-3240 synthesis, 617-387 template, 486-271

POLYMER CONTENTS

tracer diffusion. 205-848 viscoelasticity. 286-95. 286-97 polyemeraldine. 486-219 poly(enamine-ketone). 71 - 171 poly(enaminonitrile). 272-1084. 293-74. 686-679 polyene. 72-279. 94-311. 212-476. 225-105. 228-375. 360-856. 488-517. 547-1419 p~plyepichlorohydrin. 78-3458 y(epoxypropylcarhazole). 160-21 y(2.3 -epoxypropyl methacrylate). 548-1530 Polyester AA-BB, 599-3271 adamantane-containing, 678-237 aged, 416-373 aluminum interface,332-171 aminolyticdegradation,724-999 aromatic,79-2755,660-1587 arterialgraft,491-235 biodegradable,196-49,290-468 blend,97-251. 143-374,154-55, 408-2157, 417-600,426-604, 437-1866,739-1226 block copolymer,93-597 bonding, 437-1894 branched,35 I-1946 carbonate, 618-474 composite, 544-653 conformation, 658-3654 cure, 263-2313, 672-988. 673-1097 cycloaliphatic, 729-4026 dinitrofluorenone-containing, 90-1917 as emulsifier, 145-83 epoxy-substituted, 526-2553 excimer formation. 609-1680 fabric, 369-127, 396-101,484-206 fiber, 38-678, 93-613, 131-1197, 329-37, 329-53, 369-113, 396-1,396-17, 552-1,557-318,743-416 film, 217-19U, 419-77 functionalized, 120-100 glass fiber-reinforced, 195-73,261-120, 303-921,439-1665, 681-261 hetemaromatic, 359-619 hexolic-anhydride-based, 372-169 hydrochloric acid diffusion. 304-1005 hydrolysis, 290-464 of 4-hydroxybenzoic acid, 619-534 from hydroxybutyrate, 350-I 656 from hydroxyvalerate, 350-1656 injection molding compound, 424-380 isotactic, 410-2438 liquid crystal, 74-25L, 87-1117, 87-1157, 97-251,145-175, 148-311, 151-273,272-1129, 277-9, 277-47, 471-273, 530-1749, 618-458, 618-483, 618-485, 618-489, 618-499, 619-526, 680-503, 684-383 low-profile, 418-690 low-shrinkage, 426-598 mesomorphic, 132-1579 microsphem, 438-259 neutron irradiation, 282-209 by novel addition reaction, 345-1975 from nucleic acids, 265-1137 from p-oxybenzoate mesogen, 661-1655 persistence length, 664-4 19 with phenyleneazo group, 657-3525 with 2-phenylimidazole-4,5-diylunit, 479-237 photolysis, 149-263 radiation curable, 420-443 recycled, 652-4M resin, 197-1901, 480-100, 588-421 rigid chain, 354-149, 410-2507, 600-1993 rigid rod, 660-1603 rod-like, 278-57 self-developing imaging, 294-170 semiflexible, 600-2001 stability, 408-2117 structural RIM resin. 426-608 stmctme-pmperty relationship. 418-690 styrenated. 559-2343 styrylpyridine-based. 14-1093 synthesis. 533-2593 from terephthalic acid. 22-3230

782

ternary mixture, 121-184 thermal degradation. 24-2559 thermotropic, 84-17. 166-129, 208-51, 267-1447, 272-1065, 359-732 thrctaboelastographic studies, 491-219 transesterification, 739-1226 unsaturated, 72-409, 97-261. 615-205 yam, 65-661 poly(esteramide), 204-686. 212-558, 272-1125. 272-1137, 596-773, 659-3807 polyester-cotton yarn, 165-12 poly(ester-ether), 93-613, 728-3908 polyesterification. 123-1. 124-9. 396-49. 527-2793 poly(esterimide), 72-431 Polyester-polyether, 216-155 polyester resin composite, 532-353 jute-fdled, 520-383 optical properties, 31-339 mbber-fdled, 33-1455 thermal aging. 31-339 vamish, 35-231 polyester-styrene, 300-875, 548-1498 poly(ester [3-sulfide), 272-1120, 548-563, 618-497 polyester methane, 738-241 poly(ethene-co-vinylacetate), 395-272 polyether blend. 619-550 block copolymer. 81-219.93-597. 418-679 chemically modified, 553-451 crosslinking, 286-133 from difluorobenzophenone, 146-41 funcfionalized, 539-1277 from bis (4-hydroxypheaoxy)-p-xylene, 350-1683 liquid crystal, 77-3379, 203-524, 407-2043, 602-3229, 618-487 network, 139-59, 289-420, 361-347 self-developing imaging, 294-170 statburst, 286-119 thermotropic, 619-522 poly(ether-b-amide), 149-167 poly(ether ester), 349-1600 poly(ether ether ketone) annealing, 38-3721, 431-1213. 433-1413 birefringence, 268-I 19 blend, 152-517, 648-119 carbon dioxide treatment, 396-143 carbon composite, 13-446, 92-35, 96-223, 433-1419. 433-1422, 438-1570, 492-2057, 693-3387. 693-1035 carbon fiber-reinforced. 83-35. 139-41. 262-243. 434-1496 cold compaction. 740-1446. 741-1456 composite. 400-31. 434-1493. 520-301. 719-153 crystallization. 96-223. 123-21. 123-103. 433-1430. 546-29. 594-655. 616-305. 669-801. 737-360 end group analysis. 84-161 equation-of-state. 269-993 eximer laser treatment, 396-143 fiber, 436-1724, 557-243 fracture, 364-405, 469-434 gel, 93-634 graphite composite, 96-4319, 425-493, 433-1459, 469-434,689-34 heat-of-fusion, 269-993 laser annealing, 739-1241 melting, 350-1756 moisture absorption, 469-434 narrow molecular weight distribution, 293 -96 neutron scattering, 67-445 nickel Powder blend, 740-1446 oriented, 364-405 physical aging. 739-1273 positronium formation, 475-1419 processing. 621-27 pulverized, 337-7U reactive oligomer, 152-511 relaxation spectra, 611-288 self-reinforced, 619-548 silicone-impregnated, 7-417

©1989 Elsevier Science Publishers Ltd.

sorbed caprolactam, 363-92 space radiation effects, 92-19 thermal decomposition, 153-19 thermal stability, 522-323 water sorption, 64-381 polyetherification, 725-457 poly(ether imide), 20-789, 151-213, 425-470, 739-1298 poly(ether ketone), 203-517, 413-978 polyether-polyacetone block, 288-294 polyether-polyester block copolymer, 151-338, 216-179, 472-505 polyether-polyurethane, 231-23,668-191 poly(ether sulfone) blend, 464-215, 648-119, 667-1867 composite, 232-584 deformation, 75-325 in epoxy modification, 359-662 solution, 8-115 uniaxially drawn, 735-2087 poly(ethyl acrylate), 59-525, 144-487, 420-357,654-1145,729-4062 poly(2-ethylacrylic acid), 204-765, 535-2755 poly(N-ethyl-3,6-carbazolediyl),540-1361 polyethylene acetylene black-filled, 123-161 additive sorption centers, 333-39 adhesion, 467-3105 aged, 431-1178 aging, 415-303, 415-313 aluminum adhesion, 131-1287 annealing, 156-2116 antioxidant, 33-1445, 154-77, 282-193 benzoic acid diffusion, 334-141 blend, 32-1405, 32-1435, 33-1477, 64-317, 64-403, 65-467, 77-3438, 84-22, 13%581,151-207, 152-531, 202-95, 211-410, 232-641,232-649, 265-169, 269-775,299-716, 304-313, 32%80, 363-117, 416-538, 431-1205, 433-1384, 434-1516, 436.1802, 481-401,513-153, 519-552, 543-227, 552-31,589-553, 589-577, 594-667, 609-1603, 611-264, 615-233, 616-270, 616-323,734-33, 735-2047, 736.277 blown fdm, 427-696, 432-1336 bottle, 365-463 branched, 405-559 brittle-ductile transition, 616-311 brittle failure, 65-669 cable applications, 33-1445, 612-113 carbon black-idled, 85-412, 95-4121, 139-20, 465-409, 674-609 carbon dioxide diffusion, 613-23 cellulose-induced crosslinking, 342-3057 characterization, 682-5 charge carder, 161-109 chlorinated, 77-3438, 151-327, 437-1852, 543-227, 585-371,648-53,677-96 chlorosulfenated,83-45, 675-2720 composite, 356-454, 436-1813 contactangle,395-282 counterion binding, 729-3983 cracking, 37-3648, 371-1165,434-1581, 559-2467 craze, 212-453 creep, 213-113 cross fractionation, 35%9 crosslinked, 33-1445, 336-321,359-710, 438-206, 513-13, 616-321,693-443 crosslinking, 360-866, 529-313,745-415 crystal, 409-2230, 728-3941, 728-3948, 729-398O crystallinity, 269-957, 411-2551, 657-3600 crystallization, 75-431, 86-1075, 270-1029, 299-716, 355-185, 360-874, 550-229, 616-263 DC electric resistivity, 283-7 degradation, 27-345, 357-13,738-209 dielectric relaxation, 132-1645, 346-1333 diffusion, 65-617 dosimeter, 420-417 dynamic mechanical, 304-349, 340-2549 electrical tree initiation, 95-398

POLYMER CONTENTS

dectron-irradiated, 372-399 electron microscopy, 165-234 environmental stress cracking, 162-1 epitaxial crystallization, 84-27, 95-4237 ESCA, 609-1576 ethyl branches, 414-180 extensional flow, 405-559 fatigue, 371-1421,371-1458 fiber, 60-1003, 75-381,165-1171, 303-139, 624-2808, 693-555 fdament, 161-183 titled, 675-2765 film, 65-617, 76-953, 89-1822, 150-417, 422-172, 555-201L, 666-125 fdm blowing, 421-35 flame retardant, 432-1327 fluorination, 14-1049, 149-243 fracture, 522-339 functional group, 275-1492 functionalization, 204-654, 673-1117 "/-irradiated,166.137, 267-1653 gel, 518400 gel-spun, 37-3459, 37-3467 glass-filled, 60-990 GPC-LALLS, 468-85 graft, 18-3309, 63-39, 164-101, 263-2429, 591-709, 679-376 high-modulus, 462-308,734-1964, 745-3763 hot plate welding, 68 1-277 hydrocarbon diffusion, 722-1503 hydrogen-deuterium exchange, 350-1704 hydruphilic foam, 262-2153 hydrophilicity, 679-376 IGC, 735-2074 injection-molded, 215-186, 215-193, 524-267, 559-2643 interface, 714-504 ionizing irradiation, 481-221 ionomer blend, 513-211 irradiated, 87-1479, 232-191,232-237, 654-1127 laminated film, 95-4091,624-2787 linear low density, 19-2385, 34-1542, 34-1551, 66-319, 83-43, 142-237, 165-137, 281-165U, 366-313,421-22, 421-28, 421-96, 428-846, 431-1205, 432-1336, 432-1343, 434-1516, 548-1508, 616.270, 616.323, 686-579, 687-743 long-chain, 679-358 long-period, 346-1349 long-term storage, 736.299 low density, 603-3312, 611-264 low molecular weight, 155-49, 205-914 meehanical properties, 350-1709 melt, 75-297,96-1271,327- 86 malt drawing, 261-116 melt flow, 513-153 malt rheology, 36-540 membrane, 332-209, 653-821 metal-containing, 683-232 metal interface, 397-159 microhardness, 164-173L, 304-349 mixture, 123-161,359-705 model, 616-299 molecular dynamics, 664-377,726-2321 molecular weight distribution, 23-3286 monofdament, 85-28 morphology, 723-1567 network, 141-142 NMR, 411-2551, 726-2203 oligomer, 395-272, 462-320 optical birefringence, 745-3588 orientation drawing, 680-567 oriented, 67-369, 8%1532, 693-3311, 693-3319 oxidation, 159-2511,283-17, 529-1691 oxidized, 87-1532, 329-109. 609-1576 oxifluorination, 727-51 pacemaker, 303-96 paper adhesion, 82-355 paper composite, 194-53 peroxide decomposition, 552-65 phase structure, 736-299 photodegradable, 282-201 photodegradation, 415-201

783

photoinitiated crosslinking, 293-36, 412-287 ~l~aotoirradiation,267 - 1653 otooxidation, 148-1. 256-1,355-25 photooxidative stability, 71-63 phphOtOStability,492-1946 ysical aging, 483-147 pipe, 64-215, 128-14U, 304-326, 358-29, 425-455, 425-488, 435-1599, 551-161, 602-20, 740-1387, 740-1406 polydimethylsiloxane graft, 152-531 pores, 406-323 processibility, 545-133 processing, 282-109 with pyrenyl group, 728-3928 radiation-generated species, 745-403 radiation-induced degradation, 32-91 radiochemical ageing, 335-181 radiochexnicaloxidation, 372-329 reactive extrusion, 426-589 relaxations, 714-529 theology, 215-214, 435-1675 rheo-optical properties, 726-2283 self-reinforced, 656-43 silane-modified, 331-117 single crystal, 74-53,530-1721 solid-state extruded, 554-523 solution-chlorinated, 359-595 solution interface, 23-3331,287-177, 287-224 sorption, 89-1780, 679-401 space charge relaxation, 371-1323 spherulitic surface, 136-561 stabilization, 333-25, 355-239, 551-217 stabilizer, 415-257 stress-cracking, 524-235 stress field, 547-1456 stress relaxation, 483-147 sulfonated, 219-77 supported catalyst, 528-3063 surface oxidation, 18-3309 tensile properties, 335-181 tensile strength, 213-66 texture development, 530-1853, 530-1867 thermal black, 86-1581 thermal degradation, 356-305 thermal oxidation, 287-183 thermal shrinkage, 15%2162 thermoplastic elastomer, 547-1446 toughness. 686-579 tubular film blowing0426-677 ultradrawn, 19-2433, 606-35 ultrahigh modulus, 609-1615 ultrahigh molecular weight, 85-7, 86-1586, 96-4429, 138-51,152-557, 269-1009, 360-866, 364-383, 399-323, 409-2238, 416-564, 426-621,438-176, 589-577, 609-1603, 66%1814, 722-1369, 722-1377, 736-293 ultralow density, 687-748 tmiaxially-strained,720-967 UV protection, 126-6L wall slip, 483-134 welding, 424-450, 521-147 wood composite, 85-404, 130-1089 yielding, 213-69 poly(ethylene adipate), 714-487 poly(ethylene-co-carbon monoxide), 24-3344 polyethylenedodecate cupolymer, 655-459 poly(ethylene ether carbonate), 288-270, 523-463,615-235 poly(ethylene glycol) additive, 746-201 analysis, 692-2050 in biomedical applications, 617-356 blend, 152-521,273-1325, 432-1343 block copolymer, 151-338 complexation, 122-616 crosslinked. 64-371. 735-2130 diglycolic acid, 470-1651 drying, 160-2709 electrolyte, 288-319 ionomer, 25-731 microbial transformation, 208-63 in phase transfer reaction, 300-815 polymer-supported, 367-27 pyrene ead-labeled, 273-1255, 617-373

©1989 Elsevier Science Publishers Ltd.

solubility, 693-391 spacers, 680-503 poly[oligo(ethyleneglycol) dimethacrylate]. 205-809 poly(ethylene glycol)-b-poly(aspartic acid), 731-2041 polyethyleneimine.29-2126, 35-1059. 73-575, 155-11,354-167, 648-101, 653-801 poly(ethylene isophthedateterephthedate), 341-2803 poly(ethylene male.ate), 714-487 poly(ethylene-g-maleicanhydride). 522-359 poly(ethylene-co-methacrylicacid). 521-73 poly(ethylene-co-methacryficacid)polyether blend, 547-1298 poly(ethylene-2,6-naphthalene dicarboxylate), 30-449. 212-480 poly(ethylene oxide) adsorption, 205-786, 604-3466 alkali thiocyanatecomplex, 537-3029 anisotropic conductivity,289-426 blend, 19-2499.74-9. 145-145. 157-2259. 211-393,272-1159, 304-1021, 352-1964, 366-347, 414-1160, 530-1781, 548-593,609-1643, 693-459, 718-487 block copolymer, 65-581 complex. 414-1123,414-1179, 472-567, 558-1122, 677-29 crosslinked, 137-621 crystallization, 29-2121, 74-9, 270-1149, 351-1866, 616-309 dinitrophenyl derivative, 158-2437 with dissolved salts, 289-406 electrolyte, 472-519, 600-2011 functioned,207-255 GPC, 354-163 graft, 149-249, 286-109 immobilization, 63-91 lamellae, 275-1504 NMR, 410-2396 properties, 718-487 salt mixture, 299-788 silica-anchored, 558-263, 729-4045 solution relaxation, 122-664 solvent interaction, 735-2130 star-shaped, 79-2885, 660-1515 thermal degradation, 591-779 thermodynamicproperties, 720-957 triblock, 267-1721 vibrational spectra, 469-241 water interaction, 212-528. 491-337 pop~olY(ethyleneoxide)-polylactide,473-2151 y(ethylene oxide)-polysiloxane.549-200 polyethylenepolyamine,599-3515 polyethylene-polystyrene-divinylbenzene interpolymer, 124-97 poly(ethylene-propylene),205-921 poly(ethylenesulfonicacid), 534-2652 poly(ethylene terephthalate) aging, 356-279 blref-ringence.737-341 blend, 7-407, 80-801. 298-634, 334-95, 364-359, 396-29, 427-702. 436-1802, 437-1835, 437-1847, 466-3063, 547-1287, 720-6U, 734-33 block copolymer. 163-215 boule, 465-6L branched, 301-25 carbon dioxide transport, 132-1513 chlorinated,520-13U copolymer,655-459 corona-treated. 332-141 crystedlization, 164-1053, 350-1649, 492-1967, 739-1259 crystallized, 67-337, 132-1513 deformation, 88-1602 degradation, 341-2855, 552-I dielectric relaxation, 160-9 elastic modulus, 67-407 fabric, 218-60 fiber, 270-1107, 304-263,559-411 filament, 714-475, 722-1447 fdm, 34-1003, 546-23, 624-2957 flame retardant, 164-793 glasstransition, 122-705

POLYMER CONTENTS

graft, 73-527, 159-2545,523-539 heat stability. 158-2358 hydrolysis.738-361 immobilization, 63-91 injection molding, 423-333 light stability, 158-2358 model compound,724-3535 molecular orientation, 521-55 NMR, 464-195 nonlinear viscoelastic, 34-987 nucleation, 360-910 oOPriticalproperties, 34-987, 157-2237 entauon, 256.23 oriented, 29-2146 oxygen transport, 74-71 polymerization,65-707 preform, 429-961,520-12L recycled, 345-2071 recycling,436-1819, 476-10 SEC, 558-1321 solid state-extruded, 29-2115 solvent-induced crystallization, 197-1801 supermolecular stmcture, 151-242 surface modification,64-335 synthesis, 135-951,256-44, 597-55U thermal relaxation,160-9 thermoforming, 201-260 tube, 150-93 ultrahigh molecular weight, 615-160 waste, 654-I 179 yam, 65-595, 97-283 poly(ethyleneterephthalate-co-phydroxybenzoicacid), 546-1257 poly(ethylene terephthedate-co-poxybenzoate),285-3,413-1072 poly(ethyleneterephthalate)poly(tetramethyleneether), 467-3195 poly(ethylene-tetrafluoroethylene), 341-2817 poly(ethylene-co-vinylacetate), 124-89, 124-171,221-445, 221-461, 437-1852, 462-320 polyethylenimine, 542-299 poly(ethyl methacrylate), 152-563,213-89, 269-879, 530-1781, 598-167, 600-2071 poly(ethyl oxazoline), 65-573 poly[bis(4-ethylphenoxy)phosphazene], 271-1031 poly[ethynylene(3-n-butyl-2,5thiophenediyl)ethynylene],78-3528 poly[ethynylene-2,5thiophenediylethynylene],78-3530 polyethynylferrocene.488-495 poly[bis-(p-fluorophenoxy)phosphazene]. 96-1241 iPOo~Yfluorophthalocyanine, 492-71 yformal, 294-174, 351-1821 poly(formyloxystyrene),296-399 polygermane, 683-222 polyglutamate,656-487 poly(L-glutamicacid), 77-3419, 272-1115, 273-1285, 353-819, 418-369 poly(glutamine),529-339 poly(glycolicacid), 595-99 poly(glycyl-[$-alanine),78-3464 poly(N-hedoacrylamide),84-178 poly[N-(p-balobenzoyl)-L-omithine], 7%3389 p~Jy[bis(halophenoxy)phosphazene],615-225 yheterocycle.222-515, 222-527, 223-621 polyheterocyclic,225-871 poly(hexyl isocyanate),34-1049, 206-973 poly(hexyl itaconate), 96.127 poly(di-a-hexylsilane), 222-559, 438-793 poly(3-hexylthiophene),221-359, 221-371, 221-393, 221-419, 221-445, 230-663 polyhydric alcohol, 342-2987 poly(hydrocarbon-b-azomethine).349-1577 poly[hydrogenatedbutadiene-b-methyl methacrylate]. 416-538 ~p~y(~x-hydroxyacid), 23-3338 y([Lhydroxyalkanoate),272-1106, 290-492. 479-227. 617-402, 617-416 poly(N-hydroxyedkylglutamine),723-17 poly(hydroxyalkylmethacrylate). 359-628 poly(p-hydroxybenzoicacid-co-ethylene 784

terephtbalate), 735-2068 poly(hydroxybutymte),208-47, 492-621, 548-1475, 595-149, 617-398, 668-302, 734-1973 poly(3-hydroxybutyrate-co-4hydroxybutyrate),414-169 poly(hydroxybutymte-co-hydroxyvalemtc), 204-694, 350-1663, 350-1676, 408-2107, 611-261 U, 659-3800, 693-1049 poly(l~-hydroxybutyricacid), 607-148 poly(hydmxyestersulfide). 122-659 poly(hydroxyethersiloxane). 149-155 poly(2-hydroxyethylacrylate), 303-101 poly(2-hydroxyethylmethacrylate), 9-471, 9-494. 22-3198. 59-477, 71-237, 266-1383, 268-1731 poly(2-hydroxyethylmethaerylate-comethacrylic acid). 667-1942' 667-1946 poly(2-hydroxy-3-methacryloxypropyl trimethyl-ammonitan chloride), 164-101 poly[3.3-bis(hydmxymethyl)oxetane], 528-3083

poly(trans-4-hydroxy-N-acyl-L-pmline

ester). 602-3250 poly(exo-5-hydroxynorbomene).538-3181 poly(3-hydroxyoxetane),528-3113 poly(4-hydroxystyrene),30-427, 65-573. 359-686, 685-4 17 poly[2-(2-hydroxy-3-vinyl-5methylpbenyl)benzotriazole],3 I- 19 polyimidazole,297-527 polyimide addition type, 63-127 additives, 232-557 adhesion. 475-235 adsorbent, 394-274 edicyclic, 165-1225 from 4,4'-(alkylene-0~,0~-dioxy)bis(phenylsuceinic anhydride), 73-653 from 1.2-bis(4-aminophenoxy)propane, 135-963 from 1.1-his(4-aminophenyl)-2"2diphenylethylene. 299-757 from 4-aminophenylsuccinicacid, 19-3403 from 2,6-di(3-aminostyryl)pyridine, 589-557L from aryl diamine. 287-213 based on poly(2,5-furandiylmethylene,1), 731-2055 from binaphthyl-4.4',5,5'.8,8'hexacarboxylicdianhydride. 160-2659, 680-580 blend,413-1012 carbon blackcomposite,652-95 with carbonyl group, 266-1161 charge-transfer enussion, 528-263 coating, 128-4L composite, 37-3630, 363-134, 434-1537 for compressionmolding, 127-6L conductive, 147-217 copolymer, 288-296 copper interface, 682-106 copper microcomposite,684-344 crosslinkable, 4(30-455 cure, 73-711 by [3+2]cyeloaddition,663-1953 dienhydride-oxydianiline,659-3768 Dieis-Alder preparation, 287-199 from 3,6-diphenylpyromellitic dianhydride, 294-206 elastomer-modified,414-1175 with ether group. 266-1161 excimer laser ablation, 692-3252, 692-3324 f'dm, 337-2U fluorescence spectra, 336-349 gas permeabihtry, 216-127, 346-1221 heat-resistent, 684-388 from bexaazatripbenylene,414-171 high-temperature, 85-443 high-temperature transformation, 232-1117 hollow fiber, 199-23,532-405 from 4,4'-isophthaloyldiphthalic anhydride, 154-63

©1989 Elsevier Science Publishers Ltd.

from bis(N-isoprenyl), 615-169 Kapton, 95-3987 Langmuir-Blodgett film, 743-409 laser ablation, 303 -2591 mechanical behavior, 692-3273 membrane, 369-95, 530-1887 metal fdm, 95-6690 metal layered, 23 1-1911 microfilter, 153-43 model compound, 87-1498, 52%2833 molectdar aggregation, 336-349 from munoitaconamic acid, 720-969 ODPA/p-PDA, 294-183 with oxyalkylenc linkage, 16-871 with oxyethylene unit, 294-197 from perfluoro aromatic diamines, 6M-369 from bis(phenylglutaric anhydride), 73-653 photodegradative, 725-411 photoreactive, 522-389, 671-945 photoresist, 671-954 hMOtoSensitive,671-942, 671-950 DA/ODA, 294-183 PMR-15, 164-156, 413-1032 Poisson's ratio, 673-1107 precursor, 522-389 process-property relation, 434-1537 properties, 615-156 recoverable resin, 268-153 relaxation time, 681-634 rigid rod, 476-985 silicon elastomer, 520-8U siloxane-modified, 740-1413 SIPN, 359-739 soluble, 288-296,294-187, 294-202, 299-757 solvent diffusion, 137-689 solvent-induced crystallization, 359-718 structural aspects, 527-2723 structure-property, 294-192, 433-1440 from sulfonyldiphthalic anhydride, 294-192 swelling behavior, 601-2131 thermal expansion coefficient, 414-1170 thermonxidative degradation, 590-611 TSC, 161-119 UV laser ablation, 491-2591 poly(imide-co-anhydride),290-451 polyimide-cupperlaminate, 492-2183 polyimide-ester, 268-115 polyimide-polydimethylsiloxane,413-986 pp~yimide-polyformal block, 26% 1467 y(imidine-co-amide),295-299, 295-304 polyimidine, 474-2253 poly(iminocarbonate), 407-2029 pp~y(iminoethylene), 21-845 yindane, 662-1755 polyisobutene, 95-81,301-65. 483-102 poly(a-isobutyl-L-aspattate), 146-13, 349-1540, 411-2533 poly(isobutyl cyanoacrylate), 38-299 polyisobutylene asymmetric-telechefic, 361-293 blend, 143-450 local mobility, 333-21 NMR, 534-2617 peel, 154-36 shear, 154-36 solution, 205-890, 601-821,729-4031 structure analysis, 141-196, 141-200 sulfonatod ionomer, 341-2873 tack, 154-36 three-arm star, 615-162 viscosity, 524-167 poly(isobutylene-b-amide-11), 73-539 polyisobutylene-based, 131-1351 polyisocyanurate, 132-601,724-3619 polyisoimide, 739-1221 polyisoindoxazene, 88-1694 polyi~prene aroelor solution, 142-295 azodicarboxylate-modifiod,666-77 biosynthesis, 367-339 blend. 365-221,467-3227 block, 24-3340 dielectric relaxation, 285-71,285-73

POLYMER CONTENTS

dynamics, 538-3111,613-15 end-to-end distance, 410-2391 fatigue behavior, 742-683 graft, 149-249 green strength, 136-1071 LCST, 609-1695 network, 269-893 ozone aging, 158-2298 pressure-induced transition, 212-524 probe mobility, 275-1510 Raman spectroscopy, 212-524 relaxation time, 410-2391 segmental dynamics, 273-1345, 409-2253 solution, 347-517, 538-3106 star-branched, 285-71 star polymer, 40%2337 viscoelastic relaxation, 285-73 c/s-polyisuprene dielectric data, 286-89 dielectric relaxation, 209 - 181 dynamics, 547-1262 graft, 13-1041 network, 603-3348 NMR, 141-122 structural transition, 90-1902 thermal behavior, 165-1119 TSC, 161-123 tr ans- l, 4-polyisoprene

crystal, 475-1425 crystallization, 270-1135 epoxidized, 735-2019 infrared spectrum, 360-905 polyisoprene-poly(2-vinylpyridine)block eopolymer, 289-387 poly(N-isopropylacrylamide),604-3494, 617-350 poly[bis(4-isopropylphenoxy)]phosphazene, 333-49 polyisothianaphthene, 222-533,222-539, 691-395 poly(keto-amines), 337-419 polyketone, 88-1627, 338-4U, 474-2417, 669-777 ppooly(13-ketosulfide), 212-564 y(L-lactic acid-co-glyeolicacid), 595-111 poly(L-lactide), 29-2229, 263-2351, 290-476, 290-499. 547-1342, 558-75 polylactone, 590-585, 724-951 poly(L-lysine),232-145, 334-105, 624-329, 669-310 polymaleamic acid, 71-15 polymaleamide, 470-1675 poly(maleic acid-co-butyl vinyl ether), 411-2544 poly(maleic anhydride), 522-257 poly(0t-malic acid). 660-1523 poly(malic acid-co-glycolicacid), 406-281 polymalonamide, 475-219 polymer analog, 144-9 polymer binder, 491-2750 polymer-bound, 19-505, 91-237,336-313, 367-37, 367-45, 367-73, 542-303, 556-219, 556-239, 692-2079 Y(4-mercaptobenzoate), 140-14 ymer colloid, 60%116 ymer electrolyte, 153-52, 472-519, 472-551,472-609 polymeric adsorbent, 692-1559, 713-468 battery, 147-151 binder, 303-2750 catenane, 615-199 chelating agent, 291-85 chiral crown ether, 731-2091 complex, 372-325 diaphragm, 61-48 dispersion media, 60-984 drug, 600-377 electrolyte, 212-504, 289-402, 289-412, 289-414, 289-418, 289-422, 290-439, 303-584, 684-321 formamide, 599-3383 insulator, 219-83 iron-phthalocyanine, 624-893 ligand, 692-1799 lipid, 491-219

~l

785

magnet, 128-11U metal extraction, 620-21,620-21 micelle, 410-2403 photoinitiator,550-245 photosensitizer, 727-3827 phthalocyanine, 660-1573 po~hyrin, 133-1227 precursor, 231-2563 prod7rug, 558-21,663-1967.723-97, 34-497 reagent, 482-531,558-1538, 558-1548 Schiffs base, 713-439 sorben4 592-825 sulfoxide, 731-2079 support, 603-3303 surfactan4 38-292, 95-1951, 194-45, 717-451,717-459, 725-3789 polymerization anionic, 728-3882 anionic initiator, 24-2521 carbocationic, 30-413, 156-1967, 213-5 catalyst, 720-981 cationic, 256-55, 268-1791,277-137, 476-929, 482-439, 541-277, 592-875 crosslinking, 30-346, 538-3124 DSC study, 165-1159 electrochemical, 692-3113 electroinitiated, 19-2485, 267-1599, 360-928 emulsion, 59-521,131-1415, 151-254. 340-2443, 407-2094, 470-1587, 517-313, 518 -339, 591-691,724-3569, 737-349 equilibrium, 216-185 free radical, 741-717 Freidel-Crafts, 288-273 group transfer, 271 - 1054, 281 - 179, 610-63,732-2173, 732-2183, 732-2193 intermolecular complex, 29-2285 interphase, 677-105 kinetics, 537-2926, 676-2942 laser-initiated, 278-151,541-283, 590-635 light-induced,304-253, 600-347 living,15-571,281-125, 361-273, 405-189 in microemulsien, 120-34, 120-47 particle nucleation, 232-486 partitioned, 353-763,353-769 photoinitiated, 71 - 139 plasma-induced, 653-887 pseudostationary free radical, 720-961 radical, 85-13, 89-1847, 146-213, 158-2393, 591-721 rate coefficient, 542-311 reactor, 66-825, 364-374, 727-18, 739-1246 reductive coupling, 488-525 ring-opening, 16-781,275-1505, 287-195 ring-transmutation, 290-433 solvent effect, 158-2306 step growth, 205-866, 467-3205, 555-151, 609-1733, 609-1742, 653-979 termination, 538-3093, 591-683 thermal initiation, 136-1045 vapor deposition, 537-2944 vapor-phase, 470-1557 polymer microcireui4 148-253 polymer-modified, 520-2, 614-125 polymer nitoxyl, 476-975 polymer precursor, 92-27 polymer reactivity, 662-1809 polymer semiconductor, 160-75 polymer-solvent interactions, 263-2237 polymer support, 556-287, 620-47 polymer-supported, 16-923, 30-435, 166-71, 346-209, 472-391,472-405, 482-445, 556-165,736-261 polymetacyeluphane, 15-601,623-23 polymetallocene, 471-309 poly(metal tetrathiooxalate), 623-109 polymethacrylamide, 353-697 polymethacrylates with alicyclic side group, 407-2059 blend, 272-1078 chalcogenides, 746-137 characteristic ratio, 343-371

0 1 9 8 9 Elsevier Science Publishers Ltd.

liquid crystal, 72-453 monomer slurry, 475-1557 with phenylazo group, 657-3525 segmental mobility, 603-3286 with sulfonium slat, 683-185 with tetraphenylporphinatocopper(l]), 674-633 thermodynamic properties, 62-1159 with thymine base, 365-203 poly(methacrylic acid), 135-929, 268-161, 272-2265. 273-1255, 329-9, 359-677, 477-1079, 557-318.617-373 poly(methacrylic acid-g-ethylene oxide), 659-3816 polymethacrylic ester, 332-237 polymethacrylonitrile, 372-323 poly(methacryloyl chloride), 72-475 poly[bis-2-(2-methoxyetlaoxy)ethoxy]phosphazene, 290-437 poly[bis(methoxyethoxy)phosphazene], 9-509 poly(2-methoxyethyl methacrylate), 283-299 poly{6-[4.(4-mcthoxy-~-methylstyryl)phenoxylhexyl methacrylate}, 602-3259 poly(methyl acrylate), 66-841,144-487, 304-263, 654-1145, 678-229 poly(methylaniline), 362-123,487-337, 746-129 polymethylene, 410-2477, 590-601 poly(methylene dicarboxylate), 663-319 poly(methyl methacrylate) acoustic properties, 491-3351 amine doped, 714-516 asymmetric membrane, 687-789 blend, 19-2499, 32-1362, 32-1381, 36-587, 74-9, 78-3454, 145-145, 157-2156, 157-2259, 211-393, 270-1057. 334-71,342-25, 359-604, 359-610. 362-116, 408-2157, 427-693, 439-608, 492-627, 548-1524, 609-1643, 693-459,722-1469, 725-421 bone cement, 303-139 branched, 286-137, 286.141 calorimetric properties, 356.289 chain dynamics, 334-79 characterization, 63-65, 155-41 complexation, 78-3506 compressibility, 359-648 conformation, 88-1670 deuteration, 693-3295 diblock, 408-2189 dielectric properties, 611-270, 713-462 doped, 96.9 dynamic mechanical properties, 356-289 electrical conduction, 96.1381 electron beam irradiated, 66-817 end group, 336-259 fatigue, 359-643,693-3289 fire retardation, 132-1595 flame retardant, 129-863, 724-3551 fracture resistance, 164-339 functionalization. 344-1795 glass transition, 355-255 from group transfer polymerization, 366-329 heat-cured, 744-494 hypersonic properties. 12-814 ion implanted waveguide, 744-4547 IPN, 152-364, 351-1826, 419-1,514-309, 528-3053, 586-137 isotactic, 288-261,549-621 latex. 465-448 low-loss, 216-119, 274-1367 macromonomer, 266-1259, 281 - 165L, 345-2007 macroporous, 328-129 mass spectra, 600-2071 melt devolatilization, 422-142 malt elongation, 276-599 melt viscosity, 212-461 modification, 287-250 hology, 599-3439 ,418-447

oxygen diffusion, 340-2577 ppahPerimpregnation, 123-719 osphoms -functionalized, 738-305 photolysis, 678-221 photoresist, 295 -276, 671-911

POLYMER CONTENTS

physical aging, 654-1111 plasma-modified, 266-1267 plasma treatment, 29-2277 plasticized, 675-2757 in pore, 544-610 pyridine derivative, 14-1111 quinoline derivative, 14-1111 radiation-induced changes, 288-335 radiolysis, 355-255, 678-221 recovery, 122-657 resist, 29-2130 robber-toughened, 37-3623. 546-37 solution thermodynamics, 122-618 specific heat capacity, 12-814 stereocomplea, 603-3337, 720-973, 729-4O09 stcreoregular, 36-529, 78-3506 structural relaxation, 547-1433 surface treatment, 292-281 syndiotactic, 152-505 tacticity, 74-9 template, 122-679 thermal degradation, 275-449, 363-113, 534-2673, 612-161 thermal expansion, 692-3137 thermal stability, 30-499, 528-3161 ultrasonic properties. 693-3295 UV-induced etching, 293-69 UV spectroscopy, 463-349 water sorption, 653-937 X-radiation-induced changes, 528-259 poly(methyl methacrylate-co-butyl methacrylate), 585-363 poly(methyl methacrylate-co-ethyl methacryhte), 600-2071 poly(methyl methacrylate-co-vinyl pyridine), 281 - 183 poly(2-methylpentadiene), 142-233,408-2126 poly(4-methyl-1-pentene). 424-360. 547-1357, 679-302 poly(4-methyl-m-phenyleneterephthalate), 659-3776 poly(methylphenylphosphazene). 140-72, 287-185 poly(methylphenylphosphazene)-gpolydimethylsiloxane, 352-2026 poly(methylphenylphosphazene)-gpolystyrene, 352-2003 polymethylphenylsiloxane. 86-1109 poly(methylphenylsiloxane), 86-1109, 142-333, 288-298, 351-1874, 359-615, 611-275, 679-341,729-4014 poly(methylphenylsilylene),350-1718 poly(3-methylpyrrole),354-171 poly(methylsiloxane), 349-1588

poly(methylsiloxane-co-fftmeahylsiloxane),

349-1588 poly[ 1-(tri-methylsilyl)propyne],154-44 polymethylstyrene, 353-797 poly(methylstyrene-co-chloromethylstyrene), 147-201 poly(0~-methylstyrene), 23-3304, 166-123, 211-386, 269-1017, 361-265, 474-2217, 526-2611,668-207, 738-23 1 poly(0t-methylstyrene-co-acrylonitrile), 274-1402 poly(p-methylstyrene), 149-101,556-279. 590-571 poly(p-methylstyrene)-g -poly(oxyethylene), 194-45 poly(3-methylthiophene), 147-91,205-804, 220-269. 221-329, 221-335.223-681, 409-2244, 601-2081, 623-127, 690-267, 691-327 poly(4-methyl-4'-vinylbipyridine), 134-1263 poly( 1-methyl-5-vinyltetrazole), 158-2290 poly(monobenzyl itaconate), 213 -69 poly(monodecyl itaconate), 726-2337 poly(tx-naphthalene oxide-pyrrole), 690-155 polynaphthoylene benzimidazole, 160-2659 poly(N-naphthylaniline), 362-149 poly(naphthylene sulfide), 677-142, 677-142 poly(neopentylene carbonate), 415-171 polynod~omene, 208-73 polynoromene, 654-1191

786

polynuclcotid¢ analog, 71-99 poly(octadecylmethacrylate), 371-467, 649-165 poly(n-octadecylsiloxane),404.313 polyoctenamer, 150-99, 288-283, 492-675 trans-poly(1-octenylene), 79-2823, 734-1977 poly(octylthiopbene).221461 polyolet-m blend, 32-1416, 96-4307, 411-1,681-249 calcium carbonate filler, 210-456 composite, 411-11,412-165 film, 678-206 foam, 428-889 functionalization, 414-1133 functionalized, 81-265, 166-95,741-811 gasification, 722-1491 gel, 366-313 elspun, 411-73 ass-reinforced, 412-217 graft, 82-343.296-463, 432-1368 graphite-fdled, 123-143 hydrol~roxide, 157-2211 light stabilizer, 284-73 matrix, 149-187 mica-fdled, 21 4.62 modification, 411-59, 412-249 photodegradation, 355-97 pipe, 139-9U processing, 480-57 shear-induced crystallization, 683-166 spin exchange, 89-1840 stabilization, 62-1177, 412-249, 415-289. 429-1011 thermoplastic elastomer, 654.1091 wood composite. 425-524 polyorganophosphazene, 24-2611,274-1397, 359-579,548-1536 polyosganosiloxane. 88-1658, 88-1706, 278-91,299-779, 718-491,729-3969. 733 -2303 poly(L-omithine), 334-105 poly(ordao ester), 595-123 poly( 1,3,4-oxadia zole), 73 -729, 216-193 poly(oxazolidone), 345-1843 poly(2-oxazoline), 349-1604 polyoxetane, 96-155, 553-451 poly(2-oxetanone)-b-polystyrene-b-poly(2oxetanone), 145-61 pop~lly(DL-4-oxohomophanylalanine),35-1069 y(p-oxybenzoate-eo-ethylane terephthalate), 135-775

poly(p-oxybenzoate-co-p-phenylene

isophthalate), 414-186 poly(p-oxybenzoyl),77-973 poly[oxy-1-(to-bromoalkyl)-ethylene], 731-2019 poly(4,4'-oxydiphenylenepyromellitimide), 137-643 polyoxyethylene, alcohol, 38-96 alkylphenyl amine, 195-59 blend, 675-2735 cholesteryl ether, 332-201 complex, 206-1000, 418-393,588-369 dectrolyte, 613-355 interaction, 540-1345 macromer, 29-2271 modification, 159-2573 surfactant'163-537 telechelic, 274-1441 thermal characteristic, 28%172 vibrational spectra, 469-241 polyoxyethylene-b-polyoxypropylene,395-260 polyoxyethylene-polyoxypropylenepolyoxyethylene. 585-4 16 poly(oxyethylene)-b-poly(pivalolactone), 526-2625 polyoxymethylene, 141-173,204-758, 206-1004, 492-2245, 555-123, 658-3726, 719-895 poly(oxy-2,6.naphthalenediylcarbonyl), 658-3741 poly(oxynaphthyleneoxy-2bromoterephthaloyl), 474-2291 polyoxypropene diol, 677-115 polyoxypropylene, 547-1342 poly(oxytetramethylene), 662-1737 ©1989 Elsevier Science Publishers Ltd.

poly(parabanic acid), 519-546 poly(penta-l,3-diene), 203-607, 409-2359 poly(pentenylene-b-acetylene), 413-1008 poly(di-n-pentylsilylene), 538-3055 polypeptide anu-metastatic, 594-226 bioactive, 291-75 cholesteric ordering, 8%1761 conformation, 12-783, 165-67, 481-377, 481-385 fdm, 142-308 interactions, 298-642 membrane, 77-3419, 26%1625, 418-369, 554-533 metal chelate anchor, 192-319 monolayer, 195-65 NMR, 536-2860 with optically active amino acids, 618-421 Raman spectroscopy, 144-500 solubilization, 38-113 synthetic, 196-23,618-423 P~po!ypeptide-wrapped,661-1663 y(perinaphthalene), 493 - 115 yphenofic(Tannin), 529-331 poly(phenolphthalein phthalate), 270* 1121 poly[N-(10-phenothiazinyl)-6hexanoyl)ethylenimine], 527-2711 poly[bis(~b-phenoxyethoxy)phosphazene], 125-1079 poly[N,N'-bis(phenoxyphenyl)pyromellitimide], 74-25U poly[bis(phenoxy)phosphazene], 477-1047, 667-1856 poly(phenylacetylene), 71-75, 77-3386, 136-989, 147-137, 228-413,552-21, 600-2061, 678-215, 685-427, 725-3829, 746-251 pP~opoly(phenylacrylate), 31-363 yphenylene, 692-3113 poly(m-phenylene), 484-29 poly(p-phenylene), 73-515, 147-163, 161-93, 203-612, 484-1,484-7, 484-13, 484-17, 484-23,549-635, 745-103 y(p-phenylene benzobisoxazole), 611-285 y(p-phenylene benzobisoxazole-2,6-diyl), 206-985 poly(p-phenylene-2,6-benzobisthiazole), 297-502, 609-1591 poly(p-phenylene-2,6-benzobisthiazolediyl), 602-3216 poly(bis-p-phenylenediaminosulfoxide), 72-447 poly(phenylene ether), 73-661,599-3371 poly[1,4-phenylene 2,5-bis0aexadecyloxy)terephthalate], 660-1603 poly(1,4-phenylene-l,3,5-hexatrienylene1,4.phenylenevinylene), 485-47 poly(p-phenylene imine), 487-321 poly(m-phenylene isophthalamide), 202-107 poly(phenylene ketone), 677-142, 677-142 poly(p-phenylene-1,3,4-oxadiazole), 713-450, 714-520 poly(1,4-phenylenepbenylphosphonate), 676-2857 poly(p-phenylene-co-2,5-pyrazinc), 485-41 poly(phenylene sulfide), 127-3, 402-5L annealing, 433-1413 biaxially stretched, 155-140 blend, 304-358, 559-165, 667-1867, 668-175,736-322 bond strength, 677-71,677-142 composite, 96-4487, 434-1501, 434-1519, 615-207 compositional analysis, 439-151 crystallization, 84-147, 360-882, 429-1035, 433-1416 doping effects, 485-61 electron beam-irradiated, 132-1655 enthalpyrelaxation,218-55 fiber,218-55,652-5L glassfibercomposite,433-1454, 434-1496 GPC, 87-I163 heat-of-formation,677-142 iodine-doped,268-127 linear,656-27

~l

POLYMER CONTENTS

NMR, 549-212 oxidation, 273-1201 by oxidative polymerization, 730-4138 photoelectric properties, 158-2400 polarization currents, 485-67 reaction, 528-3043 single crystal, 232-157, 746-233 sorbed caprolactam, 363-92 thermooxtdation, 599-3285 poly(p-phenylene terephthalamide), 18-3235, 64-201, 85-10, 129-867, 231-450, 366-303,667-1776, 739-1237 poly[(phenyl-p-phenylene-terephthalate)co-(1 -phenylethyl-pphenyleneterephthalate)], 360-780 polyfp-phenylene terephthaloyl benzamide), 676-2792 poly(p-phenylene vinylene), 18-3241, 75-199, 136-469, 143-458, 286-154, 352-1964, 413-1048, 413-1054, 413-1060, 481-409,485-53,485-73, 485-79, 485-85, 485-91,485-97, 485-103,485-109, 485-115,485-121, 485-129, 600-2045, 613-3,690-147, 735-1992 poly( 1,4-phenylenevinylene-co-2,5thienylenevinylene), 207-389, 485-53 poly(phmylethynyl), 492-109 polyphanylmethylsiloxane,351-1878, 730-4136 poly(phenylmethylsilylene),537-2947 poly(phenyl-p-phenyleneterephthalate), 151-225 poly(l -phenyl-I -propyne), 131-1259 poly(phenylquinoxaline), 687-870 polyphenylsiloxane, 335-203, 351-1874 poly(2-phenyl trimethylene carbonate), 415-171 ppol~oly(phosphateester), 290-454 yphosphate, 618-448 poly(phosphatidylcholine),538-3180 polyphosphazene, 9-500, 9-509, 140-75, 271-1027, 289-430, 290-435, 349-1534, 618-491,732-2293 tl~o~yphosphonate,733-2329, 733-2339 y(phthalidylidenebiphenyl-4,4'-ylene), 662-1837 poly(phthalecyaninatosiloxane),492-31 polyphthalocyanine, 527-2777 polypivalolactone, 360-786, 475-1 463 poly(polytetramethylene ether glycol naphthalene 2,6-dicarboxylate), 553-489 (D,L-proline), 192-285 y(L-proline), 267-1721,268-161 poly([1.1.1]propellane), 153-34 polypropene, 687-875 poly(13-propiolactone), 141 - 130, 337-365 polypropylene acid-modified, 433-1389 aging, 342-97 anisotactic, 281-159 antioxidant, 283-1,467 -3335, 521-1, 693-481 applications, 465-9 atactic, 31-375,263-2383, 470-1575, 471-213,613-32 I~-phase, 354-907 biaxial orientation, 424-422 blend, 33-1477, 64.317, 65-467, 95-3910, 123-125, 124-89, 124-171,137-581, 151-304, 281-165U, 327-80, 347.481, 364-359, 413-1085, 423-323, 436-1748, 436-1756, 437-1835, 547-1399, 547-1407, 552-31, 559-2533, 656-38, 692-3154 block copolymer, 555-191 blow molding, 139-12, 271-10 bonding, 95-4237 calcium carbonate-filled, 214-39, 437-1900 chain folding, 333-43 characterization, 477-1177 charge transfer, 38-1112 chlorinated, 31-375, 359-604, 471-213, 648-131 chlorination, 7-23

~ly

787

with chlorohydrin groups, 122-642 composite, 38-1112, 65-645, 96-139. 96-1377, 298-690, 356-454, 363-103, 371-1479, 423-316, 433-1375, 681-269, 693-1040, 737-344, 737-352 constitutive equation, 75-85, 95-4085 controlled degradation, 428-879 creep, 29-2159 crystallization. 616-313, 616-315, 648-79 degradation, 65-681. 612-319 dicumyl peroxide reaction, 470-1575 elastomeric, 146-19, 728-3851, 728-3858 electrical properties, 371-1479 elongational behavior, 81-161 fiber, 81-173, 158-2335, 158-2351, 232-151,327-95 t-tiler effects, 161-188 film, 88-1717, 718-519 fire retardance. 283-349 foam, 407-25 foil,58-585 fracture,95-4171, 692-3235 y-irradiated,12-898,282-99 "f-irradiation, 268-1763 glasscomposite,425-53 I,523-511 glassfiber-fdled,96-1339,423-235 glassfiber-reinforced,214-8,214-16, 433-1389 glass flake-reinforced, 425-535 glass-reinforced, 437 - 1891 glassy, 613-34 graft, 71-53, 158-2335, 165-129, 648-141,649-153 high voltage discharge, 559-835 injection-molded, 670-835 ionomer, 474-2189 isotactic, 408-2181 low molecular weight, 610-95 maleic ardaydride-modified, 130-1141 mechanical properties, 364-390 mechanical relaxation, 547-1439, 726-2361 melt, 606-48, 606-60 melt spinning, 341-2683, 546-1 membrane, 420-421 mesomoq3hic form, 611-281 mica-filled, 85-419, 416-557, 518-345 microstructure, 211-428,609-1714 mineral-filled. 210-27, 416-505,422-183 nickel composite, 197-1889 NMR, 663-1931 orientation, 66-851 oriented, 97-255, 678-177 oxidation, 87-1492, 412-145, 678-199 oxidative degradation, 547-1425 oxidative stability, 31-313 particle growth, 538-3172 particulate-filled, 37-3612, 606-60 performance optimization, 428-851 peroxide, 149-199 phase transition, 362-153 photocatalytic degradation, 283-271 photofading, 594-755 photooxidized, 158-2351 photostabilization, 612-185 photostabilized, 552-43 ph.ysical aging, 29-2159, 745-3613 pipe, 348-36 plastic flow, 559-2533 as polymerization matrix, 87-1518 processibility, 545 - 133 processing, 517-285 radiation-sterilized, 231-33 reactive extrusion, 672-993 relaxation, 400-449, 546-1 resin, 337-3U rhcology, 364-390 roll-drawn, 425-496 rolltruded, 74-65 sepiolite-fiUed, 96-4525 sheet, 424-427 solvent-induced crystallization, 650-661 spherulite, 211-399 stabilizer, 592-839 stereosequence, 408-2154 stiffness, 96-1339

©1989 Elsevier Science Publishers Ltd.

structural foam, 415-327 structure, 138-45 supported catalyst, 528-3063 suture, 9-538 syndiutactic, 276-505 talc-filled, 439 - 1795,722-1479 TEM. 203-547 tensile properties, 481-245 thermal oxidation. 551 - 101 thermoforming, 210-27 tissue reaction, 303-105 ultradrawn film, 537-2968 eniaxial drawing. 96-1339 uniaxially oriented, 492-675 unperturbed dimension, 205-921 welding, 424-450 wood composite. wood-filled, 27-389, 197-2019, 412-187 wood flour-Called,612-247 yam. 592-7U zirconia suspension, 34-1572 poly(propylene glycol). 152-369, 491-39, 519-511 poly(propylene oxide). 268-1749, 530-1767. 667-1785 polypropylene-polycaproamide. 462-344 poly(propylene sulfide), 271 - 19 polypyrazolinone, 266-1225 polypyridazine, 623-79 poly(pyridilenemethyfidenenitriloiron), 72.497 ypyridium salt, 290.433 ypyromellitimide, 131-1299. 299-784, 607-151 polypyrrole, 38-139, 64-289, 93-209, 93-247, 136-93, 152-353, 218-1, 218.43, 219-51,219-59, 219-65, 219-71,219-77, 219-89. 219-97, 219-127, 219-133, 219-139, 219-151,219-157, 219-171,219-187, 220-205, 220-211,220-217, 220-229. 220-237, 220-245. 220-251,223-599, 223-605, 223-691. 224-761,224-769, 224-837, 262-2169. 360-914, 361-98. 366-303, 470-1557.489-151,490-341, 493.47. 553-499, 614-100, 615-178. 690-163,690-311 polypyrrole-coated, 490-369 poppOolypyrrole-halogencomplex, 153-48 ypyrrole-modified, 219-121 yquinofine, 488.483 poly(8-quinolyl acrylate), 31-295 polyquinene, 136-1027 polyquinoxalone, 275-1507. 297-532 poPOlllyquinoxaline-based,491-5012 yrotaxane. 679-384 polysaccbaride in aqueous media, 675-2729 blend, 649-400 carboxylate, 339-66 conformation, 559-1201 cyanoethylated, 36-546 in drag reduction, 682-47 gmraft,268-149, 286-103 dustrial, 559-1315 ionic, 125-31, 409-2367, 410-2376. 537-3011 NMR, 592-861 phase state, 675-2724 solution properties, 23-3312, 469-401 stereoregular, 216-137. 554-559 structural analysis, 559-1181 Succinoglycan thermal degradation, 11-257 tin-containing, 292-175 wormlike, 289-398 ~po~y(Schiffbase). 596-817 yselenophene, 220-293,221-317 polysilane branched. 286-131 with carboxylic acid, 537-2933 conformation, 683-222 formation. 408-2213 mass spectroscopy, 349-1624 photochemistry, 293-49, 670-882 sigma-conjugated. 222-573. 222-581

~ol

POLYMER CONTENTS

substituted, 617-412 synthesis, 336-263 UV lithography, 293.49 polysilastyrene, 537-2947 polysilazane, 439-1707 polysilicic acid. 301-30 polysilole. 222-593 polysiloxane antifoam agent, 602-3267 blend. 590-593 carbazole-substituted, 414-1150 with carbazolyl group, 24-2601 carboxylic acid-functional. 288-295 comb-like, 30.455. 289.416, 530-1823, 615-187 with cyano group, 663-325 ferroelectric liquid crystal. 25-755 functionalization, 61-1137. 207-327 with hydrophilic pendant group, 615-187 liquid crystal, 407-2062, 413-964 with mesogenic side groups, 122-607 optical anisotropy. 23-3250 perfluoroalkyl, 537-2951 photoconductive. 145-165 with polar groups. 615-177 in SFC calibration. 371-775 silica composite. 614-102 telechefic, 207-277, 20%287 polysiloxane-bound. 471-349 poly(siloxane imide). 433-1440 polysiloxane-&-poly(methyl methacrylate). 345-1907 POolYSilylpropyne ,685-507 y(sodium acrylate),152-577 poly(sodium styrenesulfonate-co-2vinylnaphthalene),77-3430, 409-2317,728-3903 polyspiroacetal,277-127 poly('t-stearyl-L-glutamate), 286-107 poly[(p-vinylbenzyl alcohol)-co-styrene]. 656.481 polystyrene adsorbent, 625-401 adsorption. 232-231 alhanin-coated, 515-309 with amino groups, 8-195 arm-star, 603-3409 aroclor solution, 142-295 association. 122-662 bacterial adhesion, 744-175 bilayer, 19-2447 blend. 17-1055, 29-2235. 32-1362. 32-1405, 32-1435, 59-509, 64-225, 64-403, 78-3502. 78-3532, 143-450. 151-207, 166-123, 202-95, 203-612. 209-171, 211-386. 269-775, 285-54. 285-57, 298-649, 304-358. 340-2485. 349-1618, 350-1761, 353-797, 359-610, 361-265. 400-445, 409-2312, 418-417, 464-215. 492-2221, 513-84. 527-2823.534-2720, 541-259. 547-1414. 600-1979, 603-3328, 603-3395,668-207,688-950, 726-2159,730-4136, 740-1434, 745-781 block,24-3340, 163-215,275-1493 bound porphyrin,91-237 brominated,282-175 cellular,257-57 chain brominated,483-I characteristic temperature, 439-83 charge-trausfer interaction, 134-1349 chlorinated. 65-695 chloromethylated, 8-161,344-503 chloromethylation, 31-368 coloring material, 151-117, 151-121 composite. 66-751,522-413,559-2497 configurational dynamics. 534-2724 crosslinked, 37-3536. 138-29. 205-940, 262-2109. 345-1873, 474-2345. 481-365. 529-295. 558-1460 crosslinking, 372-323 cyclic, 351-1834 cyclization, 478-113 degradation. 551-143 diblock. 408-2189 diffusion, 76-465, 273-1215, 273-1220,

788

534-2648 drawn, 81-213 dynamic properties,154-69 electricalconduction.96-I381 end-functionafized,615-154 end-linking,535-2802,535-2812 eathalpyrecovery,265-1125,475-1449 excimer, 142-322,232-569 flame retardancy,467-3185 foam, 429-964,476-26 fracture,737-334 functionalized,81-265 gallium trichloride complex. 16-907 gas sorption,726-2385 gel,144-493,286-123 GPC, 354-163 graft,286-127,410-2502,676-2823 high-impact,32-75,214-83,433-1384. 467-3185,533-41 Huggins coefficient, 589-567 hydroxyphenyl-terminated,276-487 impact-modified, 426-688 injection molded. 371-376 injection molding, 27-399. 83-11U internal modes. 535-2795 intrinsic viscosity, 603-3419 iodine desorption. 492-407 iodine-doped. 491-97L ion mass spectroscopy, 213-74 ionomer, 289-410, 409-2224. 594-645 ionomeric, 155-1.468-3471 IPN, 286-111,298-649. 330-145, 547-1269 isocratic ehition. 744-2449 isotectic, 78-3468. 616-303, 730.4125 ketene silylacetal-ended, 532-367 laminated film, 95-4091,624-2787 latex, 195-48.211-416, 232-153, 349-1515. 529-1649, 558.439. 683-156. 722-1335 fight scattering, 274-1374, 399-292, 589-543 living,277-653 macroporous support, 300-815 melt elongation. 276-599 melt viscosity, 741-321 membrane, 207-399, 733-457 microhardness, 164-173L micronetwork, 286-85 model compound, 411-2520, 745-597 modified. 125-153 modifier. 407-2048 monolayer. 12-832. 261-139, 359-668 network, 212-549 NMR, 474-2345 norbomenyl. 271-1022 with oligosaccharide derivative. 76-919 optical anisotropy, 351-1921 optical birefringence, 745-3588 Ol~.timal.processes.555-137 onentauon, 144-483, 285-61 oxidized, 232-231 phosphorus-functionalized. 738-305 photochemical stability, 745-781 photochromic, 212-549 photolysis. 336-291 photooxidation, 336-291, 415-247, 738-203 for photuphysical investigation, 38-369 photosensitized, 164-113 plasma interaction, 84-40 plasma treatment. 29-2277 polymorphism. 25-761 in pore. 544-610 pore diffusion, 604-3492 oceTssing aid, 131-1339 properties, 609-1675 relaxation processes, 160-2672 resin, 406'297 rheology, 257-11 ring-like, 285-75 rubber-modified, 154-69 robber toughening, 32-1427 self-diffusion, 729-3961 shear-indoced deformation, 12-886 at silica surface, 408-2195 solubility parameter. 62-1185

©1989 Elsevier Science Publishers Ltd.

solution, 62-1163, 160.68, 528-271, 603-3399, 659-3793, 668-183,669-315 solvafiou, 20-2525, 477-1057 star-shaped, 143-468, 272-1184, 285.61, 341-2699, 660-1515 steady shear viscosity, 435-1671 substituted, 726-2385, 728-3955 sulfouated, 36-558, 289-410, 514-330, 598-3187 sulfouated ionomer, 22-3183, 22-3187, 206-992, 546-1227 syndiotaetic, 25-765, 77-3356, 359-590, 410-2472, 536-2867, 613-5 ternary mixture, 205-816 thermal cycling, 266-1373 thermal degradation, 591-767 thermal stability, 745-781 thermodegradation, 725-3865 thermooxidative degradation, 165-1213 theta tomperamre, 537-3022 tissue culture grade, 303-85 transition phenomena, 395-290 UV-irradiated, 20-809 viscoelasticity, 81-121 viscosity, 69-73, 341-2699 volume relaxation, 269-837 weld-line, 434-1566 wood composite, 432-1332, 719-1167 poly(styrene-co-acrylonitrile),327-75, 427-693, 585-363 Polystyrene-based, 615-219 polystyrene-bound, 556-239 poly(styrene-co-butadiene), 350-1753, 350-1753, 678-260 poly(styrene-butadiene) diblock, 78-3502 polystyrene-butadiene-4-vinylpyridine triblock, 686-694 pl~o~Y(styrene-b-~-caprolactone),527-2823 y(styrene-co-divmylbenzene), 18-3375, 63 - 109, 345 -2015, 371-728 Polystyrene-isobutylenenetwork, 341-2757 poly(styrene-co-maleicanhydride), 152-521, 153-58, 327-75,614-109 poly(styrene-co-2-methoxyethyl methacrylate), 467-3147 poly(styrone-co-methylmethacrylate), 327-75 poly(styrene-b-methylmethacrylate), 521-95, 527-2823 polystyrene-b-polybutadiene, 160-2653, 676-2850 polystyrene-b-poly(ethylene/propylene), 588-391,735-2038 polystyrene-poly(p-phenylene)block copolymer, 485-35 polystyrene-poly(vinylpyridine)composite, 371-848 poly(styrene sulfonate), 19-2447, 155-85, 615-175, 615-178, 670-850, 730-4140 poly(styrene sulfonic acid), 361-341, 472-593,534-2652 Poly(styrene-co-l-vinyl naphthalene), 266-1401 poly(styrene-co-vinylphenol),352-1015 poly(styrene-co-4-vinylpyridine),530-1911, 595-715 Poly(styryl)lithium, 141-85 [poly(styryl)phananthroline]palladiom, 91-249 poly(styryl pyridine), 281 - 131,363-140, 588-375, 65 1-461,654.1065 bis(3 -polystyrylthiazolin-2-ylidene), 556-275 (substimted methylene), 15-537 ysulfide, 36-563,279-333,681-603, 686-709, 688-960 polysulfonamide, 270-1077 polysulfoue blend, 152-517 carbon dioaide permeation, 269-919 carbon fiber-reinforced, 438-182 dimethylsiloxane graft, 667-1931 functionalizatiun, 414-1137 lap bond strength,92-41 membrane, 7-I, 7-15, 138-37, 269-919, 525-183 modified, 138-37

~[y

POLYMER CONTENTS

photodegradatiou, 590-621 Suifone-b-polybutadiene, 15%2222 ysulfone-b-polysiloxane, 145-203 yterephthalate, 539-1217 polytetrafluoroethylone aqueous dispersion, 38-296 crystallinity, 256-15, 540-1425 dosimeter, 97-121 drawn, 594-707 etching, 468-3343 film, 150-435 graft, 721-1229, 745-375 helicity, 359-585 light scattering, 205-831 mechanical properties, 464-205 molecular weight distribution, 216-273 phase transition, 85-22 photolithography, 340-2529 polymerization, 609-1723 radiation degradation, 439-523 uniaxially drawn, 341-2897 poly(tetrahalo-p-phenyleneselenide), 550-241 polytetrahydrofuran, 77-979, 145-45, 400-461,656-481 poly(tetrahydrofuran-b-isoprene),550-243 poly(tetramethylane glycol), 164-58 poly(tetramethylene oxide), 157-2176, 203-503,530-1767, 723-1535, 735-2001 poly(tetramethylene terephthalate), 145-175 polymerramethyleneviologen, 472-593 poly(3,6,9,12-tetraoxatridec- 1-ene), 212-509 poly(tetrathiafulvalene), 160-75 t~olY(1,3,4.thiadiazole), 533-2589 y(2,5-thienylene vinylene), 485-53, 485-135, 745-43 y[bis(2-thienyl)pyridine], 25-743 y[2,5 -bis(2 -thienyl)thiazolc], 25-743 polythioamide, 533-2589 polythiocarbonate, 61-1119, 526-2657, 658-3660 polythioetber, 286-119 polPOo~ythioetherification,615-171 ythiophene, 94-267, 147-77, 218-15, 219-89, 220-229, 220-263,220-275, 220-281,220-287, 220-293,220-299, 220-305, 220-311,221-317,221-341, 221-365, 222-481,223-599, 223-611, 224-859, 227-331,228-477, 273-1231, 489-173,489-265, 490-359, 490-381, 493-33, 493-57, 614-100, 691-347 poly(thiophene-isothianaphthene), 493-79 poly(thiuram disulfide), 17-1089 polytoluidine, 48%363 poly( 1,3,5 -triaminobenzene), 203-566 (l,2,4-triazole), 73-729, 599-3481 ,4.poly(2-triethylsilyl-1,3-butadiene), 482-433 poly[bis(trifluoroethoxy)phosphazene], 403-217, 411-2549, 653-809, 684-353 Poly(trimethylene carbonate), 284-59 polytrimethylenimine, 71-99 poly[ l-(trimethylsilyl)-I -propyne], 138-1, 138-7, 202.63 poly[4.bis(trimethylsilyl)methylstyrene], 541-255 poly[[o-(trimethylsilyl)pbenyl]acetylene], 547-1328 poly( 1-trimethylsilyl-1-propyne), 293-54, 725-427 poly(triphenylmethyl metbacrylate), 550-236 Polyurea, 24-2513, 64-251,400-455, 425-572 polyurea-amide, 210-37, 342-49 polyurea-urethane, 615-231 polyurethane aging, 416-349 allophanate. 27-342, 269-795, 269-809 amine catalyst, 402-43 as arterial substitutes, 303-80 biomedical, 299-716 biuret group, 27-342 blend, 653-951 block copolymer, 684-359, 686-565 from castor oil, 59-525, 419-1,528-3053

~po]y

~l

~..~y

789

chemorheology, 150-65 coating,490-351 colorant,523-103 crosslinked, 688-955, 726-2251 with Dacron, 744-441 deformation, 465-414 dielectric relaxation, 160-24, 261-133 from diol biscarbonates, 157-2268 dispefison, 686-601 dynamic mechanical properties, 300-817 elastomer, 269-939, 342-12, 356-437, 368-55, 430-1096, 524-100, 584-390, 608-195, 615-235,686-570 electrolyte, 14-1063 fdm, 342-2961, 605-776 flexible segments, 87-1512 foam, 14-1101, 131-1351, 132-553, 132-567, 132-581,132-589. 300-827, 338-7L, 371-726, 476-11,476-28, 523-149,523-164, 592-8U, 599-3429 functionalized, 725-409 with furan moieties, 548-555 gel, 352-2011 glass fiber-reinforced, 433-1475 heat-resistant, 584-382 heparin-absorbing, 515-299, 649-429 with hydrazide fragments, 156-2091 hydrogen bonding, 533-2564 hydrolysis, 345-1993 ionomer, 8-77, 546-1213, 546-1221 ionometic blend, 468-3471 IPN, 66-841,155-1, 330-145, 351-1826, 419 - 1, 514-309, 547-1269, 594-645, 681.651 without isocyanate, 648-21 kinetics, 439-127 from lignin, 464-269, 584-402 linear aliphatic, 608-193 liquid crystal, 274-1467, 288-291 MDI, 552-325 membrane, 285-17 microcracking, 437-1902 micromechanical properties, 81-241 model, 692-2142 mold release, 72%12 moq3hology, 333-31 network, 158-2411, 354-883, 614-84 octadecyl chain-extended, 527-2673 phase separation, 272-1100 photodegradatiun, 31-349 photodegraded, 416-399 photolysis, 552-325 PPDI-based, 726-2173. 726-2189 processing, 149-91,407-16, 656-19 pyrolysis, 57-43 radiation damage, 64-283 rigid, 132-(301 RIM, 22-76, 132-542, 149-23, 201-18, 429-1002 RRIM, 22-76 rubber, 606-77 from sawdust, 129-9L segmented, 136-545, 154-113,156-2047, 336-297 semirigid, 203-551 with spiroorthocarbouate moiety, 727-3834 sport surface, 15-311 styryl-based, 14-1093 sulfonated, 546-1213, 546-1221 synthesis, 524-122 thermal degradation, 31-349 thermal destruction, 165-1135 thermal expansion, 625-927 thermal properties, 333-31 thermal stability, 329-119 thermolysis, 72-301 thermoplastic, 64-283 thermoset, 95-4209 thermotropic, 619-517 transport, 285-17 with s-triazine rings, 598-3263 trifiuoroacotylatiou, 336-297 ultrasonic cutting, 601-6L unsaturated,547-1332 polyurethane acetal,157-2149 polyurethane-acrylamidefilm,29-2136

©1989 Elsevier Science Publishers Ltd.

poly(urethaneacrylate),420-437,529-285, 599-3363 poly(urethane-g-acrylicacid),340-I13, 359-745 polyurethanemethacrylates,132-1669 polyurethane-polyester,364-397, 433-1475 polyurethane-b-polysiloxane,555 - 109 polyurethane-g-polysiloxane, 212-553 polyurethaneurea, 77-3424, 426-672, 678-277 polyuronide, 534-2685 poly(vinyl acetate) blend, 144-487 compressibility, 359-648 conformation, 88-1670 dispersion, 357-3 film, 729-4019 free volume, 409-2302 freezing-in process, 160-37 iodine complex, 525-233 latex, 71-157 methanolysis, 256-52 physical aging, 409-2302 as polymerization template, 136-1065 as template, 586-127 poly(vinyl acetate-co-vinyl fluoride), 287-179 poly(vinyl acetate-co-vinylidene fluoride), 346-201 polp~mly(vinylacetophenone),549-201 y(vinyl alcohol) acetalized, 327-92, 364-353 aminoacetalized, 270-1043 analog, 528-3113 with azobenzene side chains, 361-108 blend, 144-502, 208-437, 411-2547. 667-1797 butyral, 480-80 carbonized material, 544-610 in ceric ion initiation, 272-1058 cerium oxidation, 725-3837 copper complex, 154-127, 548-1540 crosslinked" 79-2847 degradation, 212-476 fiber, 131-1403, 218-88, 622-361 film, 38-727 v-irradiation, 372-351 gel, 145-155, 341-2709, 554-567 graft, 124-133, 288-267 heated film, 547-1419 hydrogel, 359-762, 668-119, 689-382 immobilized enzyme, 216-147 iodine interaction, 476-939 membrane, 265-303,547-1367 polyenes, 360-856 as polynucleotide analog, 724-3589 relaxation, 20-2509 saponificated, 674-597 solution, 195-28, 607-94 stereoregularity, 406-261 syndiotactic-rich, 467-3251 tetrahydroxyborate ion reaction, 549-215 visco-relaxation study, 518-333 poly(vinyl alcohol)-g-polytetrahydrofuran, 353 -753 poly(vinyl alkylate), 348-125 polyvinylalkylbenzylcarbonate,62-1155 poly(vinylamine), 409-2363 poly(vinyl amine-co-vinyl alcohol), 18-3337 poly(vinyl benzoate), 31-363 poly(4-vinylbiphenyl),745-591 poly(vinyl bromide), 534-2668 poly(vinyl butyral), 30-487, 200-291, 327-92, 693-1009 poly(N-vinylcarbazole),77-3414, 400-435, 161-93, 161-129, 360-860, 493-51, 718-487 poly(vinyl chloride) activatedallylicchlorides,194-65 aging,667-1861 with alumina trihydrate,138-178 antiplasticization, 604-3480, 624-2775 aramid-fdled,76-903 beta process, 426-663, 669-817 beverage bottle, 139-29 blend, 13-1043, 65-513, 86-1590,

POLYMER CONTENTS

95-3894, 95-3904, 138-166, 138-183, 138-191,272-I 078,273-1289, 340-2485, 340-249 I, 340-2537, 347-28, 362-116, 395-279, 417-581, 429-1024, 430-1074, 475-223,483-11, 527-2813, 530-1767, 542-73, 543-227. 543-309, 624-2825, 648-53,659-3799. 719-925, 721-1219, 722-1401, 722-1421,722-1469, 726-2211, 745-781,745-3491 bondability, 432-1275 bottle, 347-23,465-8U, 655-115 bound complex, 550-225 cablejacket,655-111 carbazole-modified,586-115 cell classifications, 531-104 chain structure, 543-321 chemically modified. 197-1855 chemical modification, 149-209, 543-185 chlorinated, 35-265, 138-183, 299-792 chloromethyl group, 661-1691, 661-1705 coloring material, 62-1149 combustion, 334-149 complex, 722-1243 creep rapture, 531-100 crosslinked, 149-219 crosslinking, 64-429, 131- 1239 crystallinity, 604-3480 degradation, 72-399, 337-405 dehydrochlorinated, 152-360 dehydrochlorination, 283-33,337-391, 363-89, 401-531,733-2347 die-drawn, 150-85 dielectric relaxation, 354-893 die swell, 655-151 diffusivity, 427-722 dilatometry, 12-913 discoloration, 552-293 DOP milling, 21-825 double bond content. 590-665 dry blending, 427-749 electrically conductive, 470-1557 electrochemical degradation, 88-1564 electron-beam damage, 624-2825 extruded, 434-1586 extrusion, 427-761.476-37 failure, 138-210 fiber, 81-191 filled. 157-2197 fire performance, 542-133 flex fatigue, 531-100 formulation, 347-2 fracture, 624-2917 functionalization, 206-223 ftmctionalized, 81-265 fusion, 347-33,481-231,542-123 "/-irradiated, 531-81 gas transport, 686-642 gel, 143-411,205-843 gloss control, 427-725 graft, 718-467, 721 - 1197 heat resistance, 652-4U high-service temperature, 649-175 hydrogen chloride elimination, 335-245 IGC, 543-297 impact-improved, 655 - 129 infrared spectroscopy, 138-175 injection molding, 27-399, 427-767 interaction, 543-315 irradiated, 84-35, 543-267 K-value, 341-2827 molecular model, 661-1691 morphology, 123-59, 123-79, 124-35 NMR, 661-1691 nucleophilic substitution, 336-361 organic sorption, 129-901 organic transport. 542-95 organotin stabilizer, 543-197 oxidation, 552-293 packaging, 520-14U paste formulation, 531-84 photodegradation, 130-935, 275-477, 341-2789 photooxidation, 533-2576 pipe, 83-1,90-431,128-14L, 434-1594 pitch, 164-57, 492-2191 plasticized, 88-1579, 340-2537

790

plasticizer,142-289,347-6,347-9, 427-746, 427-753,683-171 plastisol,427-757 pole figureanalysis,653-923 porous membranes, 27-340 processihility,427-773,542-21 processing,132-1713,434-1586, 655-133 processingaid,652-4M profile,127-14M profile extrusion, 138-200 recycled, 476-4 recycling, 427-765 regrind, 427-761 relaxation properties, 543-309 theological properties, 542-109 rigid grade, 427-718, 531-100, 543-253 rotational potential, 209-176 sandwich core material, 262-225 sheeting, 139-36 sinterable, 139-31 sintering,655-125 smoke suppressant,291-527 solution,90-1923 stabilization,132-1685,363 -89, 427-730, 542-41,542-59,543-209, 655-141,720-989 stabilizer,347-15,358-37 structural defect, 543-171,543-277 structural foam, 140-26 supply, 466-13U suspension, 197-2033 tacticity, 354-893 tensile yield, 341-2827 tetramethyldiaminodiphenylmethane oxidation, 678-265 thermal degradation, 363-127, 483-61, 543-185, 552-11,714-541 thermal properties, 340-2485 thermal stability, 31-303, 543-277, 590-575. 590-581 thermal stabilizer,329-23,358-43U thermooxidative degradation, 160-2639 robe,96-4437 ultrahigh molecular weight, 347-42 UV resistance, 397-185 vinyl chloride removal, 130-999 volume recovery, 12-913 weatherable, 427-739 white-pigmentated" 648-39 wood composite, 531-90 poly(vinyl chloride-co-vinyl acetate), 657-3578 poly(vinyl cinnamate), 728-3898 poly(vinylcyclohexane),275-1499 poly(vinylcyclopentadienyl-manganese), 685-492 poly(vinyl ester). 283-279, 521-9 poly(vinyl ether), 18-3361, 659-3763 poly(vinylethylene), 30-471 poly(4-vinyl-N-ethylpyridiniumbromide), 67-359 polly(vinyl fluoride), 141-151,534-2668 y(vinyl formal), 594-765 poly(vinylidene chloride), 288-289 poly(vinylidenefluoride) acoustic wave propagation, 546-1247 annealing, 726-2347 birefringence, 130-977 blend, 78-3454. 132-1481, 213-69. 342-25, 346-1195, 439-608,492-627, 546-1251, 548-1524 corona-charged" 625-931 crystallization, 270-1089 deformation, 371 - 1219 dehydrofluorination, 330-205 electrical conductivity, 330-205 ESCA. 609-1576 high voltage discharge, 559-835 IGC, 537-2974 inverse gas chromatography, 286-I 66 mechanical anisotropy, 475-1375 mechano cation, 273-1277 membrane formation, 654-299 molecular orbital calculations, 345-1897 NMR, 163-541,471-1 phase transition, 74-39 photochemical inermess. 208-413

©1989 Elsevier Science Publishers Ltd.

pipe, 126-13L polarization, 95-269 radiation crosslinking, 468-3449 rheology, 81-113 surface modification, 615-152 transformation, 371-1219 water sorption, 393-77 poly(vinylidene fluoride-cotetrafluoroethylene), 163-541 poly(vinylidene fluoride-cotrifluoroethylene), 137-709 poly(vinylidenehalide), 274-1408, 274-1413 poly(l-vinylimidazole), 160-2666 poly(vinyl methyl ether) blend, 17-1055,78-3532, 195-81, 205-940. 209-171,266-1401, 285-54, 298.649,409-2312. 414-1155, 418-417, 603-3395, 603-3399, 603-3399, 614-109,740-1434 characterization, 85-19 IPN, 286-111,298-649 physical aging, 409-2307 poly(vinyl methyl ether)-cross-polystyrene SIPN, 730-4128 popl~olyVinylmethylsilane , 680-545 y(vinyl methyl siloxane), 214-86 poly(2-vinylnaphthalene), 142-336, 205-800 poly(vinylphenol), 57-155 poly(4-vinylphenol), 203-586, 479-127 poly(vinylphenylalanine),208-69 poly(vinyl propionate), 144-487,729-4062 poly(2-vinylpyrazine),692-1799 poly(vinylpyridine),224-837, 303-570, 351-1808, 736-307 poly(2-vinylpyridine), 20-2525, 22-3125, 62-1191,208-89, 350-1761, 477-1153, 651-736 popoolY(2-vinylpyridine)lithium,207-341 y(4-vinylpyridine), 19-2447, 263-2275, 367-79, 527-2897 poly(4-vinylpyridine-g-t-butyl methacrylate). 19-511 poly(4-vinylpyridine-co-styrene),527-2897 poly(4-vinylpyridinium permagenate), 527-2897 poly(N-vinylpyrrolidone),59-457, 65-573, 208-437, 292-281,336-305,341-2921, 346-1195, 482-505, 546-1251, 667-1797 poly(l -vinyl-2-pyrrolidone-co-maleic acid), 663-1967

poly(N-vinyl-2-pyrrolidone-co-methyl

methacrylate), 22-3191 poly(N-vinylpyrrolidone-co-styrene),8-139 poly(vinyl stearate), 21-839 POolY(vinylstyrylpyrazine),74-49 y(N-vinyl-thionaphthene-indole), 488-551 poly(1-vinyl-1,2,4-triazole), 160-2666 poly(vinyl trimethylacetate), 202-121 polyfp-xylene), 745-1231 poly(p-xylylidenedialkyl sulfonium halide), 75-199 polyyne, 623 -61 porosity, 437-1876 porous flow, 70-317 porous polymer, 120-64. 162-27 porphyrin, 161-133, 408-2123 posttron annihilation, 409-2302 posfforming, 132-1541 power law, 69-337, 365-471,421-104, 422-159,526-175,601-865 praseodymium soap, 267-1631 preceramic, 615-237 prec!p.itation structure, 328-177 prectston processing, 545-23 progel sol, 536-2871 prepreg, 140-32, 406-7, 430-1142, 689-15 pressure sensitive adhesive, 686-588 printed circuit board, 424-382 processability, 555-161 processing aid, 201-250, 432-1336, 436-1752 computer-aided, 423-267 deformation kinetics, 271-34 machinery, 21-3, 83-21 modifier, 432-1365

POLYMER CONTENTS

new trends, 26-25 theology, 26-39 stabilizer, 735-2080 water hydraulics, 139-18 profile die, 421-66 profile extrusion, 21-59, 139-16L, 422-179, 422-203, 425-546, 436-1809, 666-39 propagation rate, 535-2785 propargyl alcohol polymerization, 653-1011 propargyl-terminated, 298-618, 687-835 propellant, 467-3237 propone copolymerization, 276-559 polymerization, 85-16. 144-31,208-97. 213-19, 213-72. 353-717, 408-2186, 411-2535, 541-293,541-1489, 663-1997, 731-2009, 734-503 [3-propiolactone polymer, 212-519 propiolactone polymerization, 602-3242 propylene copolymer, 211-428, 276-643,471-69, 672-1077 copolymerization, 22-3139, 34-1031, 536-2875, 547-1350. 724-3769, 736-233 polymerization, 59-499, 132-1605, 132-1625, 353-707, 547-1350, 609-1709, 668-103,668-111,681-621. 730-4134, 736-233 propylene-ethylene copolymer, 15-327 propylene oxide copolymerization. 352-2025, 719-935 macromer, 467-3119 polymerization, 18-3189, 361-287, 478-49, 719-935 N-(2-propynyl)carbazolepolymer, 477-1025 prosthesis, 190-9, 231-56, 259-3L, 259-13L, 331-13U, 438-147, 438-156, 463-2L, 463-3,587-2U, 650-5U protein adsorption, 68-199. 95-171,232-523, 624-339, 744-1,744-77 binding, 593-194 calcium-binding, 10-1865 complex. 682-119 conformation, 196-2 denatu rat ion, 716-1667 determination, 558-449 electrostatic interaction, 126-1187 folding, 398-1059, 398-1097 FTIR, 10-1831 hydrolysis, 199-87 ligand-binding, 196-56, 492-1009 NMR, 37-511 polycationic, 615 - 178 sol-gel transition, 132-1731, 263-2439, 523-579 statistical mechanics, 729-3986 thermophysical properties, 372-235 protein-polypeptide LB film, 224-787 protoanemonin, 366-341 roton irradiation, 735-2054 mitt-Baggett catalyst, 609-1709 pullulan, 290-509 pulse-induced critical scattering, 200-27 pulse radiolysis, 15-767, 745-503, 745-587 pultmded, 439-40 pultmding, 339-9 puhrusion, 37-199, 284-302, 401-11U, 402-10U 4-[2-(2-pyrazyl)ethenyllstyrene,349-1568 pyridazine, 329-1L pyridine polymerization, 676-2818 pyridinium-based oxime, 288-277 pyridinium-type polymer, 556-269 pyrolysis, 693-497 pyrolysis gas chromatography, 357-8 pyrolysis-GLC analysis, 194-23 pyromeUitic anhydride, 537-2944 pyrrole copolymer, 213-53, 489-189 polymer, 37-2473 polymerization, 220-193,397-153,489-271 pyrroles, 38-153

791

Q quality assurance, 533-29. 555-161 uinoid dopant, 489-209 -quinolinyl copolymer, 624-281 quinone, 401-501 quinone-amine polymer, 135-865

~

R

radiation aging, 363-137 chemistry, 57-1, 57-132 crosslinking, 89-1750, 290-437, 412-231, 439-581 cure, 297-553 graft, 96-13, 96-51 modification, 411-107 radiation-curable, 85-389 radiation-sterilized,547-1425 radical decay, 735-2136 radiolysis, 372-323, 400-465 Raman scattering, 19-2447 rare earth metal polymer, 134-1397 rayon, 38-735 reaction injection molding computer simulation, 83-17 impingement mixing, 428-826 kinetics, 522-237 laboratory machine, 342-29 mixhead, 263-2295 reinforced, 83-27 rotary injection, 28-43,402-7L structural, 612-279 reactive blending, 32-1427, 83-47, 360-835 copolymer, 528-253 dye, 370-167 extrusion, 32-1435 gel, 684-403 hydroxyphenyl groups, 160-2689 ion etching, 296-394 microgel, 331 - 107 reactive polymer, 289-344 resin, 38-43 side group, 527-2861 reactivity ratio, 527-2819, 719-911 recycled, 402-12M, 436-1802, 476-4 recycling, 427-770, 428- 896, 433-1378, 436-1807, 436-1819, 476-3,476-11, 476-23, 520-1,720-10, 734-33 redox polymer, 290-474 reducttve transformation, 668-137 refractive index, 138-205 regranulation, 533-14 regrind, 423-330 relaxation dynamics, 89-1785 process, 549-613, 741-333 behavior, 204-714 mechanism, 22-3171 moduli, 526-119 spectra, 36-482 time spectrum, 435-1652 release agent, 40%16 renormalization, 22-3204, 23-3304, 351-1798, 535-2742 reptating, 201-27, 285-44 reptation, 205-927, 483-166, 609-1651, 657-3611 residual stress, 154-100, 157-2189, 365-441,421-31,423-303,423-341, 425-546 resin selection, 424-367 resist, 58-192, 132-1589, 148-231,160-79, 161-113,295-371 resorbable, 125-4U. 432-1282 resorcinol-crotonaldehyde, 16-935 resoreinol-formaldehyde, 287-221 resorcinol-modified, 412-33 resprop!ophenone-formaldehyde, 124-47 restorattve resin, 592-871 retardation spectra, 36-482 reverse micelle, 165-67 reverse osmosis, 130-1125, 200-119, 369-95 theological transient, 81-149 rheology of anisotropic material, 61-21

©1989 Elsevier Science Publishers Ltd.

of disentangled polymers. 285-46 in industrial applications. 606-27 modifier, 684.406 rbeumeter eapillary, 27-357 magnetic sphere, 296-434 optical, 285-49 rotational, 75-273 sliding plate. 416-499 rhenoptical studies, 619-526 rheooptics, 618-456 rbeo-photoacoustic FTIR, 299-739 rigid-chain copolymer. 266-1175, 296-404, 672-1089, 724-3745 rigid rod composite, 154-107 copolymer, 297-517 matrix, 286-163 molecule, 619-536 polymer, 70-303, 91-47, 288-321. 296-424, 297-502. 299-762, 476-985. 492-25 computer simulation. 143-477 from phthalocyanines, 148-303 system, 619-519 ring polymer, 285-77, 285-79, 658-3702 RNA, 717-1939 rocket case, 63-167 rod-coil transition, 614-65 rodlike macromolecule, 163-1981, 351-1891 rodlike molecule, 75-261 rodlike panicle. 275-I 496 rodlike polymer, 143-358, 213-105, 351-1881, 613-17, 726-2295, 729.4076 rolhmded, 426-625, 553-715, 685-555 rosin,367-297 rotational isomeric state, 143-43 I. 537-2982 rotational molding, 425-558, 666-107, 727.49 rot resistance, 164-205 Rouse model, 420-246, 483-166, 658-3667 rubber, 491-238 abrasion, 742-750 adhesion, 61-1127, 129-26 antiozonant, 415-341 blend, 29-2170, 409-2293. 608-197, 681-249 blowout, 91-892 carbon black compound, 7.431 carbon black-filled, 82-329, 91-938, 95-4282, 131-1209 cellulose fiber composite, 464-259 composite, 340-2645, 434-1574. 742-709 compounding. 7-383 crystallization. 616-290 dynamic mechanical relaxation. 621-387 dynamic testing, 91-842 elasticity, 142-284, 481-393,206-979, 614-82 XYcoating, 693-1019 ,201.43 freezing point depression, 524-187 gel, 19-2413 induced orientation. 81-183 injection molding, 91-906, 338-10U ion mass spectrometry, 742-656 joint,666-99 mass spectroscopy, 621-548, 742-698 mechanical behavior, 28-197 melt processible, 436-1752, 436-1760 metal adhesion, 608-197, 742-757 metal bond strength, 681-289 mineral fiLler. 648-1 mixtures, 621-456 network, 471-93, 688-955 plasticizer, 680-462 reinforcement. 91-842 resistivity. 91-828 short fiber composite. 93-606 silica filler, 465-399 test methods, 608-170 viscoelasticity, 368-68 valcanizate, 209-147, 736-285 vulcanization, 608-I 97, 680-475, 680-586 water content, 194-77 rubber-modified, 27-347, 361-106 rubber-toughened, 33-1462

POLYMER CONTENTS

Ruthenium, 133-1215, 133-1255, 134-1263

S

salt complex. 289-428 salt water effects. 154-23 sanidic phase. 618-478 Saran. 96-207 scaling, 23-3260, 84-170. 143-394, 340-2603, 347-421, 351-1946, 534-2709, 536-2871. 609-1591 scattering, 85-4, 303-439, 430-1120 Schiffs base. 487-371,559-755 schizophyllan, 194-639 SchoUky barrier, 223-681,223-687 Schottky junction, 224-729 scleroglucan, 65%3551 scratuh-resistant, 419-73 sealability, 473-66 sealant, 332-175 second order fluid, 201-115 second virial coefficient, 23-3328, 410-2491 sedimentation, 405-627 segmental friction. 276-549 self-consistent field, 206-965, 409-2277. 617-386, 679-414 self-crosslinking, 73-681 self-diffusion, 38-305, 157-2229, 212-549, 270-1179,289.418,410-2376 self-doped conducting polymer. 489-305 self-interacting. 231-263 semiconducting, 223-723,488-477, 550-241 semiconductor, 223-715, 224-735 semicrystalline polymer aging, 360-799, 360-799 amorphous region, 299-715, 535-2781 chain dimensions, 269-859 chain relaxation, 269-875 interphase, 143-472. 299-715 mechanical properties. 360-799. 360-815 NMR, 349-1611 semidilute solution, 205-879 semi-flexible polymer, 611-272 semi-ordered chain. 616-279 semirigidpolymer, 76-1 sensor, 8-205, 231-246, 259-10U, 298-675, 404-291. 413-1068, 424-386. 430-1086, 430-1089, 434-1530, 558-1674 serum fibronectin adsorption, 37-67 shear band, 665-1 shear flow. 69-1, 81-73 shear stability, 12-793 shear stress coefficient, 601-979 shear-thickening, 137-329 shear-thinning. 365-488, 483 -91 sheet extrusion, 421-31 sheet molding compound, 22-66, 28-233, 211-37. 261-151,284-308,417-632, 419-43, 426-583, 428-821,429-978, 553-74O. 672-1051, 727-9, 739-1286 shock absorbing polymer, 685-560 shrinkage, 430-1051, 431-1262 shrink film, 727-33 sigma-conjugated polymer, 745-587 silane condensation, 622-32 coupling agent, 74-79, 132-1449, 261-145L, 407-2040. 437-1891, 437-1894 silica adhesion, 682-101 adsorption, 82-307 colloid, 347-371 graft, 341-2921 hydrogel, 465.460 modified, 74-79 precipitation, 288-298 surface, 408-2199 in synthesis, 88-1670 silica-based filler, 84-104 silica-immobilized,367-3 silica-siloxanemixture, 289-396, 667-1820 silicon-containing polymer, 685-452 silicone copolymer, 615-183 elastomer, 430-1137 792

graft, 336-285 network. 736-333 polymer, 670-887. 674-1215 precursor. 659-3814 rubber, 123-115, 259-6M, 288-300° 601-14, 649-387 UV-curable, 614-107 silicones. 140-29U sillcone-bound, 266-1439 silicone-modified, 515-2U silicon-siliconnetwork polymer, 350-1697 silk, 36-535, 80-835, 340-2637, 353-811, 370-147, 546-1243, 557-252. 588-1613.613-453.622-345, 664-387 siloxane with aliphatic isocyanate group. 610-85 aminopbenoxy endblocked, 615-183 block copolymer, 295-376 comb polymer. 153-52 co~olymer, 32-1381, 590-593, 718-481, -3673 cyclic. 20%267 elastomer. 84-104 network, 740-1419 oligomer, 300-801 polymer, 394-264, 682-99,687-865 p-siiphenylene-siloxanepolymer. 599-3503 silylated nuclcophilic monomer, 367-173 silyl-containing,533-2602 3-silyl-l-bexyne polymerization, 271-1036 Simha-Somcynsky theory. 32-1347 single crystal,229-595, 609-1623 single-strandpolymer, 304-243 singletenergy transfer,669-3 lO sisalfiber,18-3159 size exdnsion chromatography, 143-400, 289-400. 351-1891, 468-5, 682-4 slipmeasurement, 217-9U slow release, 59-487 small-angle scattering. 23-3328, 204-675, 465-389 small gap polymer, 222-545 smoke, 291-529. 531-50 soditan acrylamidoundecaneate polymerization, 595-663 sodium acrylate gel, 126-1181 sodium lignosulfonate, 583-274 sodium poly(styrene sulfonate), 78-3498, 303-530 sodium 3 -vinylphenylazosulfonate copolymer, 540-1325 solar cell. 348-131 sol-gel condensation, 549-200 hybrid, 615-227 material, 614-105 method, 683-204 reaction, 350-1730 transition. 274-1397, 359-693.411-2526, 607 -86 solid propellant,400-441 solid-stateelectrolyte.535-2845 soliton,489-227 solubilityparameter. 36-54 I, 275-1497, 393-48 solution association.288-333 bubble coalescence, 161-656 chain dimension. 604-3496 coexistence point, 88-1712 criticalconcentration. 609-1690 criticalstate,17-I127 diffusion coefficient,197-2007 diffusivity,231-279 dimensions, 675-2769 dynamic properties,604-3435 dynamics, 23-3273 extensional flow, 286-93 high pressure, 24-2595 interactionparameter. 31-360 kinetic theory. 231-328 light scattering,546-I 204 near wall, 161-152. 161-155 second virialcoefficient,362-139 sedimentation, 35-1073 shear properties, 137-257 ternary effects.352-2009

©1989 Elsevier Science Publishers Ltd.

thermodynamics, 90-1,216.163, 304-159 theta temperature, 286-91 viscometry, 201-27 solvent crystallization, 658-3716 partition, 274-1484 sorption, 676-2871 solvont-induced embrittlemem, 529-1629 sorption, 346-I 209, 346-1221, 492-1085, 529-1559, 529-1599, 736-331 sotmd dampening, 28-403, 296-477, 296-483, 296-489,300-827, 300-847 space effects, 92-19, 154-23 spectroscopic methods, 57-27 spectroscopy, 85-395,288-306 sphemlitic growth, 261-108 spinning, 606-19 spinodal decomposition, 414-177, 548-585, 549-203, 604-3494 spin welding, 427-710 spiral flow modelling, 427-796 spiral mandrel die, 422-196, 473 - 18, 546-59 spirofluorenylindolizine,73-671 spiroorthocarbonatepolymerization, 266-1415 spironllhocster, 19-517, 395-229 spring-chain macromolecules, 137-281 squaric acid• 683-227 stabilization, 412-117, 551-121 stabilizer, 427-743 star-armed polymer, 351 - 1904 star-branched, 163-2812 starch, 8-93, 73-595, 286-105, 290-507, 291-511,291-511,330-169, 332-215, 334-99, 337-423, 518-23, 518-43, 607-123, 725-433 starch-based plastic, 545-31 star copolymer, 22-3221 starlike micelle, 659-3806 starpolymcr, 285-67,286-113, 286-129, 351-1911,362-146, 662-1791 stereochnmistry, 618-425, 618-429, 618-439 steroid hormone, 291-115, 291-125 stiff-chain polymer, 585-366, 679-421 stilbene, 140-55 stirred tank reactor, 658-3690 strain-induced crystallization, 654-1191 strain invariank 531-757 strainmeasurement, 139-20L stratified flow, 473-1 stress cracking, 348-29 stress growth, 404-289 stress relaxation, 36-477, 70-355, 76-69, 95-6690, 97-283, 158-2298, 212-447, 347-501,410-2457• 538-3075, 605-707 stress-strain properties, 681-231 stretching flow, 621-202 structural damping, 300-816 foam, 428-883 panel, 426-640 plastics. 412-21 recovery. 356-319 structure-active filler, 480-91 styrene block copolymer, 327-116, 328-121, 433-1371, 615-229,656-34, 667-1800, 681-640 oopolymer, 29-2271.62-1203, 136-523, 203-537, 208-427, 212-514,329-129, 395-265, 395-268, 527-2871, 551-143, 585-414, 591-753,620-71U, 668-151, 675 -2735, 719-885,728-3871, 738-255 copolymerization, 27-337, 27-378, 72-367, 130-1029, 135-847, 140-52, 146-31,256-450, 257-66, 266-1429, 335-241,335-251, 33%375, 346-181. 395-225, 420-332, 467-3163, 477-1007, 521-65, 527-2811, 536-2875, 585-411,589-535, 590-605, 590-629, 596-861,599-3315, 602-3222, 60%147, 608-186, 660-3823, 679-289, 680-559, 719-911, 724-989, 724-3659, 731-2063, 731-2141,732-2287 diblock, 410-2446

POLYMER CONTENTS

functionalized surfactant, 491-343 graft, 608-188, 745-375 ionomer, 659-3751,659-3756 NMR studies, 286-135 oligomerization, 206-998 polymerization, 25-771, 64-393, 73-691, 74-73, 77-3356, 120-86, 130-1079, 232-501,256-60, 350-1642, 361-301, 395-288, 408-2129, 478-1195, 492-379, 517-313,550-248• 590-677, 591-725,604-3491, 607-147, 615-150, 664-397, 686-705, 714-483,725-3811 reactivity ratio, 257-62 solution. 463-358 substituted, 141-104 terpolymer, 591-791 styrone-acrylamidecopolymer, 590-651 styrene-acrylate copolymer, 692-2171 styrene-acrylic acid copolymerization• 517 -313 styrene-acrylonitrile copolymer blend, 64-225, 65-513, 75-223, 86-1590, 197-1837, 334-71,340-2491, 430-1074, 530-1951, 726-2211 chemical modification, 66%1938 optical technology, 428-876 toughness, 545-120 styrene-acrylonitrile-1-vinylrmphthalene co~lymer, 329-135 stytmae-butadienecopolymer domains, 276-589 friction coefficient, 615-239 microsphere, 78-3442 microstructure, 31-357 NMR• 350-1748 oH-extended, 85-434 pennselectivity, 165-227 solution rheology, 347-469 photooxidation, 738-269 thermodynamics• 342-1 styrene-butadiene mbbar aging, 356-269 blend, 362-111,417-586, 666-93 carbon black-f"tiled,336-355• 420-288, 482-475 carbon black-loaded, 420-272 FEF-leaded, 131-1327 mica composite, 15-292, 419-109 mica-f'dled, 132-1449 Monte-Carlo simulation. 91-783 NMR, 482-475 theology, 210-453 sealing web, 28-402 vulcanizate, 518-327 vulcanization, 130-987 styrene-butadiene-styreneterpolymer xidized, 212-467 • 59-509 microstrucmre, 31-357 morphology, 398-281 SAXS, 650-687 solution, 548-1484 structure, 657-3533 styrene-butyl acrylate emulsion, 667-1872, 667-1883 styrene-divinylbenzenecopolymer chloromethylation, 35-147 heterogeneities, 281-189 macroporous, 350-1722 material, 548-577 matrix structure, 123-45 network, 474-2357 support, 367-11 styrene-ethylene/butylene-styreneblock cepolymer, 559-2331 styrene-b-isoprenecopolymer, 401-491 styrene-maleic anhydride copolymer, 468-65 styrene-methacrylate copolymer, 75-223, 692-2171 styrene-methyl methacrylate copolymer, 523-547 styrene-a-methylstyrene copolymer, 428-844, 615-195 styrene polymer, 80-791 styrene sulfide polymerization, 359-752 styrene-terminated resin, 298-610 styrenic copolymer, 138-183, 138-191,

793

141-159 styrenicmaterial, 437-1828 styrenic polymer. 615-21 I• 669-306 substrate protection, 301-1 sucrose copolymer, 610-41 sulfomethylation, 357-6 sulfonate ionomer, 75-245,514-459 sulfonic polymer, 531-341 sulfur-containing polymer• 279-313 sulfur dioxide copolymer, 79-2719 copolymerizafion, 467-3163, 474-2305, 678-171 membrane separation, 199-49 sorption, 367-79 terpolymer, 359-756, 591-791 terpolymerization, 353-677. 732-2149 superconducting, 231-2563 superconductor, 213-1 supercritical extraction, 371-726, 582-42 supercritical fluid, 558-1097 supported catalyst, 479-147 sup~rted complex, 685-476 suHacg analysis, 194-3, 371-805 charactedzaton, 620-115, 727 -28 effects, 137-655 free energy, 8-101 interaction, 289-356 modification, 126-15L, 394-248, 599-3405, 599-3419 potential, 161-139 properties, 658-3707 spreading, 289-391 tension, 165-26, 275-1496, 371-599, 410-2388 surface-interacting, 351-1780 surface-modified, 492-624 surface-modifying, 724-3673 surfactant, 38-292, 38-301,201-59, 232-217, 299-751,343-403,624-245• 668-123 suspension flow, 61-14, 611-242 theology, 161-580, 303-415 viscometric flow, 435-1682 viscoplasticity,741-311 viscosity,342-2973 sustained delivery,595-133 suture, 191-IOM, 343-475. 463-6, 587-14• 650-15M, 715-5U swelling, 653-859 symplex stoichiometry, 327-110 synthesis modelling, 328-143

T

Tait relation, 143-464 tautomer, 135-855 TDI-lacquer prepolymer, 607-168 technology, 257- I U Teflon, 163-1L telechelic polymer• 549-627 telechelomer, 407-2090 teleromerization, 14-1087 telogene, 24-2545 telomer, 14-1077 tensile deformation, 78-3485, 164-183 terephthalaldehyde bis(Sbenzyldithiocarbazate), 396-83 terephthalic acid esterification. 58-543, 197-1821 terminally-adsorbed, 289-368, 289-385 tetraailylammonium chloride polymerization, 146-25, 344-1811 tetmchloroplatinate polymer, 291 - 139 tetrafluoroethyl acrylate• 615-181 tetrafluoroethyl acrylonitrile, 615-181 tetrafluoroethylene copolymer• 143-371 plasma-polymerized, 468-3343 polymer• 609-1669 tetrafluoroethylene-ethylene copolymer, 609-1576 tetrafluoroethylene-hexafluoroethylene copolymer, 417-645 tetrafluoromethane copolymerization, 474-2265

©1989 Elsevier Science Publishers Ltd.

tetrafluoroterephthaloyl chloride, 266-1425 tetrafunctional monomer, 159-2588 tetrahydrofuran polymerization, 359-722, 536-2853 tetraphenylthiophene polymer, 613-371 tetrathiolate polymer, 684-340 textile fiber, 521-21 thermal aging, 302-29 analysis, 97-163, 304-327, 625-1353, 746-311 characterization, 469-315 conductivity, 741-257 decomposition, 97-301 degradation, 614-98, 693-291 expansion coefficient, 66-305 expansivity, 143-464 thermal field-flow fractionation, 346-1317, 722-1383 thermally stimulated creep, 149-167 thermally stimulated current, 549-627, 648-91 thermally stimulated depolarization, 8-149, 161-116, 164-58 thermally stimulated discharge. 668-213, 734-1977 thermally stimulated measurement. 558-1308 thermally stimulated process, 96-15 thermistor, 232-609 thermo-acoustic properties, 737-346 thermochromic transition, 221-419 thermochromism, 221-377, 221-451 thermodynamics, 492-1051 thermoelastumer, 666-69 thermoforming, 21-49, 22-81,424-431, 424-435, 424-438, 666-35 thermogravlletry, 693-77 thermoluminescence, 161-113, 164-65, 415-335, 585-394 thermoplastic additives, 465-10 composite, 92-11, 92-23, 92-31U creep, 139-23 distribution, 432-1309 engineering design. 426-635 t'dament winding. 92-31L graphite fiber fabric, 92-17 high-temperature. 298-623 impact-modified. 132-1527 particle-fdled, 85-382 robber-toughened, 131-1395 short fiber-reinforced, 214.28 for space, 369-22 surface properties. 339-88 thermal analysis, 96-161 transparent impact. 288-275 weld. 339-8U welding. 740-1382 thermoplastic elastomer. 280-87. 433-1398. 436-1740. 436-1744. 652-13. 358051L thermo-responsive polymer. 720-7L thermoreversible gel. 205-848 thermoset binder. 544-673 chemorbeology. 672-973.739-1279 cure. 129-889. 284-302. 284-315. 284-334. 427-781. 430-1099 decomposition, 427-781 dielectric analysis, 284-278 dynamic mechanical analysis, 284-278 gelation, 653-781 glass fiber-reinforced, 533-18 graphite -reinforced. 622 - 15 heat-resistant, 266-1301 high-performance, 337-4U high-temperature, 436-1728 injectionmolding, 607-157 kinetic studies, 284-295 mold flow, 428-817 notch sensitivity, 439-1670 particulate-filled, 154-120 processing, 21-64, 22-69 selection, 427-800 thermotropic, 84-2, 328-129 theta state. 535-2829 them temperature, 414-174, 658-3702

POLYMER CONTENTS

thiazole-based polymer, 93-259 thiazolium salt polymer, 266-1333 thickener, 684-408. 684-409, 685-544, 686-629 thickening, 686-624 2,5 -thienylene group, 661 - 1649 thiether ketone, 73-661 thin fill, 136-489 thioanthone photopolymer, 492-365 thioether glycidyl resin, 474-2397 thiophene-based, 222-515 thiophenedithiol polymerization, 405-203 thiopbene. 38-153,147-67, 224-729, 345-1891, 684-383 functionalized zwitterion, 728-3913 thiuram vulcanization, 136-1089 thixotropic cement, 726-1011 throboplastin complex, 89-1829 thymine-containing, 15-757, 18-3297 timed release, 652-7U time-tempe.ramre superposition, 428-870 tin-containing, 2 9 2 - 1 7 5 tissue adhesive, 290-501 titanate-coated, 518-345 titanate coupling agent, 77-985, 416-557, 428-866 titania precipitation. 288-298, 611-275 titanium dialkylamide, 682-111 titanium dioxide, 421-2 toluene copolymerization, 474-2265 tooth enamel, 192-297 topological compounds, 328-49 torsional braid analysis. 19-3409, 464-189, 653-781 torsion testing, 95-4017 TPX, 341-2907 transacylation,682-99 transesterification,153-55, 211-379, 541-249, 692-1445 transfermolding, 428-830, 429-994, 436-1769, 553-749 transient flow, 598-269 transient stress. 601-949 transitional flow, 676-2863 transition-metal-catalyzed, 411-2542 transition metal complex, 133- 1189, 223-621. 471-327. 472-609. 493-189 transition metal ion, 483-19 transmission electron microscopy. 437-1859 transport, 285-7, 613-41 triacetin-polymer system, 151-317 triacrylate resin, 282-245 2-(trialkoxysilyl)- 1,3-butadiene polymerization, 349-1563 triblock copolymer, 491-97U tribochemical reaction, 89-1866 triboelastic model, 28-197 tribology, 597-1 tributyl acrylate copolymer, 151-248 tributyltin Qt-ch.loroacrylate,685-471 1.1,2-trichloro-1.3-butadiene, 159-2605 bis(trichlorophenoxo)ethylenediamine (I/) complex, 152-348 2,4,6-tricyanostyrene, 140-38 triethoxysilane functionality, 77-3353 trifluoroethylene copolymer, 74-39, 303-563,303-583 trifluoroethylmethacrylate, 266-1149 ct-(trifluoromethyl)styrene, 140.45 trifluoropropyllethylsiloxene,266-1241 trifluorostyrene graft, 262-2165, 341-2817 bis(trihalophenoxo)copper(lI), 662-1843 tfimethoxysilyl-terminated, 407-2040 trimethylene carbonate, 595-631 trimethylolpropane trimethacrylate, 141-155, 337-385 c/s- 1,4-poly(2-trimcthylsilyllethyl- 1,3butadiene), 482-541 4-trllethylsilylmethylstyrene.662-1855 4 -bis(trimethylsilyl)methylstyrene. 662-1855 a-trimethylsilyloxystyrene,725-3779 trinitrofluorenone-eontaining polymer, 89-1792 trioxane polymerization, 686-700 trioxyethylene-0t,0>dllethacrylate, 90-1944 tris(bipyridine)mthenium01). 335-197

794

trithiane polymerization, 18-3151 tritylmethacrylate polymerization. 617-406 Trommsdorff effect, 739-1246 tube size enlargement, 538-3075 tubulent jet, 598-311 mnicin, 349-1615 turbulent flow, 36.512

U

ultracentrifugation, 582-58 ultrafihration, 68-149.68-189, 68-199, 68-261. 134-311. 344-47. 403-187, 525-245.597-17 ultrahigh molecular weight, 80-817 ultrasonic absorption, 518-333 attenuation, 673-1124 characterization, 81-121 degradation, 159-2635 joining, 425-511 measurement, 714-526 technology, 425-502 welding, 425-507, 425-514, 425-517 ultrasound, 136-103, 295-257 uhrathin film, 289-358 ultraviolet absorptive groups, 93-620 curing, 82-393,292-17, 293-108 irradiation, 288-324 laser ablation, 692-2608, 692-3329 resist, 15-617, 294-142, 294-155, 670-850, 670-856, 670-859, 671-920, 674-603,683-195, 683-199 surface modification, 332-147 lO-undecanoic acid polymerization, 334-121 undecyl oxazoline block copolymer, 724-3603 urea-formaldehyde resin, 159-2618, 159-2628, 746-271 urethane acrylates, 295-354 block copolymer, 546-1234 elastomer, 281-203 fill, 594-627 formation, 150-409, 209.445, 357-1 prepolymer, 132-1699 resin, 21-873 thermally reversible. 288-287 vinyl ether funcfionalized, 294-233, 684-302 urethane-acrylamide fill, 72-317 urethane-based. 64-251 urethane-urea block copolymer, 678-243, 678-252 UV-absorber group, 327-I 16 UV-autocurable, 132-1669 UV-curable, 295-332

V

valerolactone copolymerization, 13-1029 vapor desorption, 209-184 vapor phase osmometry, 58-560, 720-947, 720.951,720-957 vapor sorption, 653-915 vascular graft, 9-10, 59-8U, 59-10L, 125-8, 331-13L. 587-14U, 715-2L, 715-11L vascular material, 398-15. 463-15M vesicle, 140-29L, 199-249, 199-269, 204-765, 535-2755 veterinary applications, 37-15 vibration characteristics, 297-605 vibration control, 299-728 vibration damping, 296-477, 300-827, 300-842, 300-847, 621-515 vibration testing, 405-639 vinyl acetate copolymer. 155-99, 335-211,337-411, 528-3173, 722-1439 copolymerization, 71-193, 72-357, 135-847, 266-1325, 267-1559, 344-1817, 470-1683, 599-3315, 678-282 graft, 286-101

©1989 Elsevier Science Publishers Ltd.

polymerization, 71-43, 71 - 157, 122-679, 135-807, 165-127,256-49, 395-238, 467-3315 vinyl alcohol-vinyl propionate copolymer, 29-2244, 330-181 vinylamine copolymer, 679-335,679-335 polymer, 336-331 o-vinylbenzaldehyde eopolymer, 591-753 (p-vinylbenzyl)polystyrene,554-519 vinylbenzyl-terminated, 610-1 vinyl-t-butyl PBD, 591-745 N-vinylearbazole, 194-71,590-671 N-vinylcarbazole-divinylbenzene, 165-1129 9-vinylearbazole, 89-1855,668-163, 676-2939 vinyl chloride eopolymer, 122-694, 471-69, 613-25 polymerization, 63-145, 542-1,542-21, 542-155,543-329, 588-399 vinyl compound, 85-426 vinylcyclopropane, 266-1435, 344-1831 vinylester resin, 139-26, 209-447 vinyl ether polymerization, 528-2937 vinylferrocene, 414-190, 558-1460 vinyl fluoride copolymer, 90-1895, 732-2203 vinyl graft, 131-1253 vinylic substitution, 91-249 vinylidene chloride eerie ion initiation, 272-1058 copolymer, 432-1325, 613-25 graft, 158-2335 vinylidene chloride-methyl acrylate copolymer, 615-201 vinylidene chloride-methyl methacrylate copolymer, 537-2994 vinylidene chloride-vinyl chloride copolymer, 285-32 vinylidene cyanide copolymer, 359-698, 609-1639 vinylidene fluoride copolymer, 232-83, 303-563,303-583,346-201,393-77, 732-2203 vinylidene fluoride-tetrafluoroethylene copolymer, 88-1686, 158-2328 vinylidene fluoride-triflunroethylene copolymer, 163-2089, 269-913, 272-1092, 491-342 vinylidene fluoride-vinyl chloride copolymer, 285-11 vinylidene-tetrafluoroethylene copolymer, 143-444 vinylimidazole polymerization, 13-1019 2-vinylnaphthalene eopolymer, 145-45, 204-646, 272-1148,554-511 vinylon, 93-629 3-vinylperylene, 604-3495 vinylphenanthrene-methacrylic acid polymer, 535-2766 vinyl polymerization, 473-2143, 535-2788 vinyl po.lystyrylpyridine/bismaleimide ahphatic ether copolymer, 369-17 vinyl product, 543-241 vinylpyridine cqtmlymer, 558-1460 2-vinylpyridine block, 60-1020, 549-220 4-vinylpyridine eopolymer, 479-217, 556-131 derivatives, 609-1747 graft, 330-195 /qDO.vlymerization,271-1025, 474-2483 inyl-2-pyrrolidone eopolymer, 71-1,535-2824 hydrogel, 539-1253 polymerization, 135-881,155-103, 529-301,537-2957, 590-671 vinylruthenocene polymer, 414-190 vinyl-terminated, 548-1546 vinylthiirane derivatives, 600-381 vinyltrimethoxysilane copolymer, 131-1269 vinyltrimethylsilane block copolymer, 681-640 vinyon copolymer, 37-3528 viologen copolymer, 72-393 viologen-linked porphyrin, 134-1275 viscoelastic boundary layer, 76-93 viscoelastic flow, 265-143,265-193, 301-38, 404-231,436-1779, 526-197, POLYMER CONTENTS

621-426, 726-1047 viscoelastic fluid, 36-555, 68-11, 68-59, 68-93, 68-1191, 539-1253 viscoelasticity, 285-38, 297-592, 431-1167 viscometric film, 201-87 viscometry, 682-23 viscose, 256-31,593-10L viscosity intramoleeular, 137-207 modifier, 683-252 non-Newtonian, 12-793 pressure dependence. 667-1895 shear rate dependence, 431 - 1209 temperature dependence, 667-1895 viton, 300-866 volume relaxation, 195-39, 269-837 volumetric behavior, 409-2264 vortex enhancement, 473-95 vulcanization, 130-987

Z

zeolite, 152-537, 619-565 zeta-potential, 165-49,744-77 Ziegler-Natta catalyst, 19-2399, 58-552, 59-499, 145-37, 145-139, 208-85, 276-505, 353-707, 353-717,462-341,477-995, 528-3151,603-3307, 660-3824, 680-533 polymerization, 77-3360, 85-16, 230-721, 538-3172, 541-1489 reaction, 334-85 zinc acrylate polymerization, 585-409 zirconate coupling agent, 428-866 zirconium[tetrakis(salicylidene)diaminobenzidine] copolymer, 299-710 zwiuerionic associating polymer, 683-265

W

wall effects, 76-47 wall slippage, 139-40 waste landfill, 476-31,533-38 waste recovery, 265-169, 594-667 waste reprooessing, 476-7 wastewater treatment, 744-2332 water diffusion, 87-1559 in hydrogel, 22-3191, 22-3198 phase state, 88-1597 water-soluble copolymer, 265 -1099 water-soluble polymer, 121-328,357-6, 616-329, 616-331,617-359, 617-369, 617-380, 617-389 water sorption, 394-306 water-sweUablepolymer, 684-393 water transport, 134-279, 285-15 waveguide, 424-397,742-28, 744-4547 wear-resistant, 280-83 weatherable, 421-14, 421-18 weathered, 58-594 weathering, 26-225, 139-27, 415-245, 551-181,601-17, 738-333 weld, 425-474 welding, 348-37, 424-446, 424-450, 425-458, 425-464, 425-499 wetting transition, 350-1689 White-Metzner model, 404-325 wood, 65-645,284-81,287-233,298-690, 363-69, 420-469, 436-1813, 474-2457, 522-413,583-334, 584-488,596-825, 653-841,713-448 wood flour, 612-247 wool, 36-569, 521-29, 522-291,654-1159, 689-367,689-388,721-278 wormlike macromolecules, 603-3332 wound dressing, 190-15. 231-3,715-5U

X

xanthan, 11-185, 11-195, 11-213, 29-2249, 125-55, 194-617, 260-129, 341-2933, 351-1863,466-137, 535-2835 xanthan gum, 143-364, 143-367, 161-617 xanthate, 263-2283, 406-273, 518-127, 653-841 xerogel, 396-69, 688-969 X-ray diffraction, 667-1763, 713-473 resist, 146-41 sensitive, 58-172 xylan, 16-895,653-907, 685-442 p-xylenesulfonium salt polymerization, 478-1 xylenyl ether-arylene ether sulfone triblock, 407-2048

Y

yield criterion, 669-769 numerical modeling, 434-1571 point, 75-355 stress, 405-671,601-989 ylide, 271-1025, 597-39 Young's modulus, 676-2903

795

©1989 Elsevier Science Publishers Ltd.