Hydrogen reduction of ammonium paratugstate (APT) into tungsten blue oxide (TBO)

Hydrogen reduction of ammonium paratugstate (APT) into tungsten blue oxide (TBO)

POWDER PRODUCTION H Y D R O G E N R E D U C T I O N OF AMMONIUM PARATUGSTATE (APT) INTO T U N G S T E N B L U E O X I D E ( T B O ) J.W.van Put., T.W...

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POWDER PRODUCTION H Y D R O G E N R E D U C T I O N OF AMMONIUM PARATUGSTATE (APT) INTO T U N G S T E N B L U E O X I D E ( T B O )

J.W.van Put., T.W.Zegers, (Dellt UniversiW of Technology. Delft, The Netherlands,) Int. J.

Refractory Metals and Hard Materials, Vol 10, No 3, 1991, 115 122. The literature relating to ~he reduction of APT into TBO, at 300 lo 600 C is c r i t i c a l l y reviewed. A m m o n i a c o n t e n t , oxygen index, specific surface area and Fischer mean particle size are discussed and reported to be typical characteristics of TBO.

H Y D R O G E N R E D U C T I O N OF AMMONIUM PARATUNGSTATE (APT) INTO T U N G S T E N B L U E O X I D E ( T B O )

J.W.van Pul et al. Int. J. Refractory Metals and Hard Materials, Vol 10, No 3, 1991, 123 131. An investigation into the effects of changes in process p a r a m e l e r s for the II reduction of APT on the properties of TBO is described. Reduction time, temperature, it flow rate and yield of p o w d e r are considered as t h e s e influence a m m o n i a content, oxygen index and specific surface area of the TBO. II was not found possible to change the Fishcher mean particle size significantly by c h a n g e in one of t h e operating conditions.

PRODUCTION AND C H A R A C T E R I S A T I O N OF HYDROGENREDUCED SUBMICRON TUNGSTEN P O W D E R S -- PART I

W.D.Schubert, E.Lassner. (Technical University of Vienna, Vienna, Austria.) Int. J.

Refractory Metals and Hard Materials, Vol 10, No 3, 1991, 133 141. The production and characterisation of fine W powders is discussed with particular reference to state of the art techniques.

RECOVERY OF T A N T A L U M A N D N I O B I U M FROM S O L U T I O N S A F T E R CRYSTALLISATION OF A M M O N I U M PARATUNGSTATE (APT)

T.Zhengji, (Cemented Carbide Industry Co., Zhuzhou, ttunan, China.) Int. J. Refractory Metals and Hard Materials, 10, No 3, 1991, 143-146.

The production of Ta and Nb from t h e residual solutions after crystallisation a n d removal of APT is described. The process involves and the addition of NaDH a n d heating with agitation at 100°C which precipitates Na niobates and tantalates. The precipitate is t r e a t e d with HC1, dried and calcined to yield Nb and Ta oxides.

P R O P E R T I E S OF S T E E L P R O D U C E D BY DISCHARGE BETWEEN STEEL ELECTRODES AND ELECTROLYTE

R.A.Valiev et al. Poroshkovaya Metallurgiya, No 6, 1991, 4 6. (In Russian.) The process of making powder by low temperature plasma discharge between steel electrodes and an aqueous electrolyte is d e s c r i b e d . The e f f e c t s o f p r o c e s s c o n d i t i o n s on t h e d i s p e r s i v i t y a n d composition of the powders are stated. The presence of Fe304 in the powders is reported.

E L E C T R O P R E C I P I T A T I O N OF U L T R A F I N E IRON-COBALT ALLOY P O W D E R S

E.P.Zhelibo et al. Poroshkovaya Metallurgiya, No 6, 1991, 35-40. (In Russian.) The electrolylic p r o d u c t i o n of Fe-Co alloy powders in a complex electrolyte is described. Process conditions and variations are considered. The Co c o n t e n t of the powder is reported to increase with i n c r e a s e s in t h e Co c o n t e n t of t h e electrolyte. Co r i c h p o w d e r s are characterised by increased dispersion and higher values of magnetic induction and coercive force.

T R E A T M E N T OF WASTE T U N G S T E N HARD ALLOYS BY T H E ZINC M E T H O D

V.A_Cristyaova, V.A.Popov, Tsvet, Met., No 2, 1991, 47-48. (In Russian.) The application of the Zn m e t h o d for the t r e a t m e n t of W bearing waste materials is discussed. The m e t h o d is based on the reaction between Zn and Co in c e m e n t e d carbides and investigation of the effects of Co c o n t e n t a n d WC p a n i c l e size is described.

N E W P R O C E S S E S FOR T H E M A N U F A C T U R E OF PM ALUMINIUM PRODUCTS

V.G.Gopienko et al, Tswet. Met., No 2, 1991, 56-60. (In Russian.)

Techniques for the atomization of A1 and A1 alloys are reviewed. Gas and w a t e r atomization and rapid solidification are considered. Use of mechanical comminution and ultrasonic vibration in the atomization process are discussed.

P R O D U C T I O N OF T I T A N I U M A N D T I T A N I U M A L U M I N I D E P O W D E R S BY C A L C I O T H E R M I C R E D U C T I O N OF OXIDES

R. Suzuki et al. (Kyoto UniversiW, Japan.) Zairyo to Purosesu, Vol 2, No 2, 1991, 322 323, (In Japanese.) Ti, Ti3Al and TiA1 powders were m a d e by calciothermic reduction of Ti and Al oxides at 900 ° to 1000°C, Ca(OH)2 was removed by leaching with HC1 or acetic acid for the c o m p o u n d s . C o n c e n t r a t i o n of r e s i d u a l oxides in the powders are stated.

P R O C E S S I N G OF U L T R A F I N E P O W D E R S BY E L E C T R O N BEAM EVAPORATION

ICl.Lawson, D2.Stephenson, (Cranfield Institute of Technology, Bedfordshire, England.) J. Materials Science, Letters, Vol 10, No 12, 1991, 699-700. It is r e p o r t e d t h a t u l t r a f i n e m e t a l powders below 100 nm in size have been produced by a t h r e e - b e a m high p r e s s u r e electron beam technique in which there is a high degree of gas scattering. Variation in p a r t i c l e m o r p h o l o g y of Ni p o w d e r is described.

P R E S E N T STATE OF M A N U F A C T U R E OF A M O R P H O U S PM M A T E R I A L S

M.Miskovieova et al. (Ustave Exptl. Metal, 8AV, Kosice, Poland.) Pokroky Pra,skove Metalurgie, No 1-2, 1991, 34-49. (In Polish.) The production of a m o r p h o u s powder metallic materials is reviewed with respect to i m p r o v e m e n t s in p r o p e r t i e s w h i c h accrue from their use. Fre, Al, Ni, Ti, Nb and Si are considered for use in machinery, aerospace and electro-technical applications.

P R O G R E S S I V E T E C H N O L O G I E S IN POWDER M E T A L L U R G Y

M.Miskovicova et al. (Ustav exptl, Metal, SAV, Kosice, Poland.) Pokroky Praskove Metalurgie, No 1-2, 1991, 50-66. (In Polish.)

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