Secondary metals as raw materials for powder metallurgy P. A. KuluD. S. ArensburgerA. P. Tymanok Theory, Production Technology, and Properties of Powders and Fibers Pages: 1 - 6
Finely dispersed Si3N4−SiC powders and materials based on them Ya. GrabisI. ZaliteT. Miller Theory, Production Technology, and Properties of Powders and Fibers Pages: 7 - 11
Densification and structure formation in the sintering of composite materials based on nitrides of the IV–V group transition metals. III. Sintering of composite materials in the (VN, TaN)—Cr systems F. F. EgorovV. Ye. Matsera Theory and Technology of Sintering, Heat, and Chemical Heat-Treatment Processes Pages: 12 - 16
New processes for the production of tungsten hard alloys by use of a controlled methane—Hydrogen gaseous medium V. P. BondarenkoÉ. G. PavlotskayaV. F. Moshkun Refractory and Ceramics Materials Pages: 17 - 22
Use of powders of the tungsten—Rhenium alloys for the preparation of impregnated cathode skeletons. II. Emission capabilities of barium containing impregnated cathodes with tungsten—Rhenium alloy skeletons O. I. Get'manV. V. PanichkinaV. V. Skorokhod Refractory and Ceramics Materials Pages: 23 - 27
Thermodynamic modeling of parameters for quasibinary eutectic LaB6−ZrB2 V. M. DanilenkoYu. B. PadernoV. L. Bekenev Physicochemical and Structural Investigations of Materials Pages: 28 - 33
Interaction of silver and phosphorus with zirconium, niobium, and molybdenum Ya. F. Lomnitskaya Physicochemical and Structural Investigations of Materials Pages: 34 - 36
Change in porosity of TiC—(Fe, Ni) composite on reaction with molten iron—Nickel Physicochemical and Structural Investigations of Materials Pages: 37 - 39
Complex transition metal hydrides and hydride-nitrides prepared by SHS. I. Systems involving nitrogen A. G. AleksanyanA. G. AkopyanV. Sh. Shekhtman Physicochemical and Structural Investigations of Materials Pages: 40 - 43
Effect of structural vacancies on the nature of metal-metal and metal-carbon bonds in cubic monocarbides Yu. I. Rogovoi Physicochemical and Structural Investigations of Materials Pages: 44 - 50
Structure and properties of Fe—Ni—Si—B and Co—Fe—Ni—Si—B alloys obtained by explosive compaction of amorphous powders N. M. MordovetsV. I. KovtunV. G. Strat'ev Physicochemical and Structural Investigations of Materials Pages: 51 - 57
Corrosion and tribotechnical properties of materials based on Kh18N15 stainless steels with MoS2 and Cr3C2 additives S. G. Napara-VolginaL. N. OrlovaA. K. Skuratovskii Physicochemical and Structural Investigations of Materials Pages: 58 - 63
Effect of tantalum on the properties and structure of hard alloys based on titanium carbonitride V. I. Tret'yakovV. I. Mashevskaya Physicochemical and Structural Investigations of Materials Pages: 64 - 67
Disk-type milling cutters with working elements made of powder high-speed steel. I. Technology for making semifinished products for the cutters Yu. G. DorofeevV. Yu. DorofeevA. S. Yutishev The Powder Metallurgy Industry, Economics, and Organization of Production Pages: 68 - 72
A lubricant for pressing aluminum powder L. S. MartsunovaA. P. SavitskiiG. N. Romanov The Powder Metallurgy Industry, Economics, and Organization of Production Pages: 73 - 78
Correcting for container temperature inhomogeneity in sintering diamond-metal composites V. P. ChepelevaN. V. Makarets Information and Experience Exchange Pages: 79 - 84
Structural changes in friction surfaces of plasma-sprayed coatings P. V. NazarenkoI. E. PolishchukA. Yu. Koval' Information and Experience Exchange Pages: 85 - 88
Wetting of a TBC-type hard alloy by some liquid metal melts N. N. SeredaL. N. BeloborodovV. V. Poluyanskaya Information and Experience Exchange Pages: 89 - 92
Current state of development of new ceramic materials (review of foreign literature) O. P. Kulik Information and Experience Exchange Pages: 93 - 101
Review of trends in European PM production and technology B. Williams Trends in Powder Metallurgy Pages: 102 - 107
Powder metallurgy in Europe: Challenges for future growth (PM98, Granada) L. Albano-Müller Trends in Powder Metallurgy Pages: 108 - 112