References to Part Two

References to Part Two

REFERENCES TO PART TWO [1] Rogozhin, S.V., Davankov, V.A. Tsyurupa, M.P. Patent USSR 299165 (1969); Patents: USA 3,729,457, Austria 312929, Australia ...

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REFERENCES TO PART TWO [1] Rogozhin, S.V., Davankov, V.A. Tsyurupa, M.P. Patent USSR 299165 (1969); Patents: USA 3,729,457, Austria 312929, Australia 448487, Great Britain 1315214, Argentina 190867, Belgium 756082, DDR 85644, Holland 140869, Canada 909442, Italy 916194, France 2061341, FRG 2045096, Czechoslovakia 164371, Switzerland 542254, Japan 982759; Chem. Abstr. 75 (1971) 6841b. [2] Torkelson, J.M., Gilbert, S.R. Macromolecules 20 (1987) 1860–1865. [3] Fleischer, G. Macromolecules 32 (1999) 2382–2383. [4] Davankov, V.A., Rogozhin, S.V., Tsyurupa, M.P. Vysokomol. Soedin. B15 (1973) 463–465. [5] Davankov, V.A., Rogozhin, S.V., Tsyurupa, M.P. J. Polym. Sci. Symp. 47 (1974) 95–101. [6] Grassie, N., Gilks, J. J. Polym. Sci.: Polym. Chem. Ed. 11 (1973) 1531–1552. [7] Grassie, N., Gilks, J. J. Polym. Sci.: Polym. Chem. Ed. 11 (1973) 1985–1994. [8] Krauss, D., Popov, G., Schwachula, G. Plaste Kautsch. 26 (1979) 214–215. [9] Krauss, D., Popov, G., Schwachula, G. Plaste Kautsch. 24 (1977) 545–548. [10] Jovine, C.P., Ray-Chaudhuri, D.K., Patent USA 4,448,935 (1984). [11] Tsyurupa, M.P., Lalaev, V.V., Davankov, V.A. Dokl. AN SSSR 279 (1984) 156–159. [12] Tsyurupa, M.P., Davankov, V.A., in: Progress in Science and Technology, Chromato­ graphy, K.I. Sakodynskii (Ed.), VINITI, Moscow, 5 (1984) 32–66. [13] Popov, G., Krauss, D., Feistel, L., Schwachula, G. Patent DDR 150218 (1981). [14] Feistel, L., Popov, G., Schwachula, G., Krauss, D. Patent DDR 220051 (1981). [15] Rogozhin, S.V., Korshak, V.V., Davankov, V.A., Maslova, L.A. Vysokomol. Soedin. 8 (1966) 1275–1278. [16] Pepper, K.W., Paisley, H.M., Young, M.A. J. Chem. Soc. (1953), 4097–4105. [17] Kolarz, B., Stespien-Firkowicz, A., Marciniak, A., Prace Naukove Institutu Tech­ nologii Organicznej i Tworzyw Sztucznych Politechniki Wroclawskiej, N13, Kon­ ferencje N2 (1973) 105–118. [18] Fiestel, L., Popov, G., Schwachula, G. Plaste Kautsch. 30 (1983) 250–251. [19] Hauptman, R., Schwachula, G. Z. Chem. 8 (1968) 227–228. [20] Corte, H., Netz, O. Patent USA 3,417,066 (1968). [21] Galeazzi, L. Patent France 2,272,108 (1975). [22] Dow Chemical Co., Brit. Patent 677,350 (1952). [23] Warshawsky, A., Deshe, A., Gutman, R. Br. Polym. J. 16 (1984) 234–238. [24] Roland, L.R. Millar, J.R. Chem. Ind. (4 January 1993) 10–13. [25] Bacak, N., Koza, G., Yagci, Y. Polym. Mater. 8 (1991) 189–192. [26] DeHaan, F.P., Djaputra, M., Grinstaff, M.W., Kaufman, C.R., Keithly, J.C., Kumar, A. et al. J. Org. Chem. 62 (1997) 2694–2703. [27] Feistel, L., Schwachula, G., Reuther, H., Klinkmann, H., Falkenhagen, D. Patent DDR 249274 (1987). [28] Krauss, D., Popov, G., Schwachula, G., Feistel, L., Hauptmann, R. Patent DDR 125,824 (1977). [29] Xu, M., Shi, Z., He, B. Chin. J. React. Polym. 2 (1993) 119–128. [30] Reed, S.F. Patent USA 4,263,407 (1981). [31] Stringfield, R.T., Goltz, H.R., Norman, S.I., Bharwada, U.J., LaBrie, R.L. Patent USA 4,950,332 (1990). [32] Maroldo, S.G., Kopchik, R.M., Langenmayr, E.J. Patent USA 5,037,857 (1991). [33] Feistel, L., Popov, G., Schwachula, G. Plaste Kautsch. 30 (1983) 496–498. [34] Feistel, L., Popov, G., Schwachula, G. Plaste Kautsch. 30 (1983) 548–549. [35] Reed, S.F. US Appl. 927,221,24 (1978); Chem. Abstr. 93 (1980) 48118S.

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