Production of atomized metal and alloy powders by the rotating electrode process M. ZdujićD. Uskoković Theory, Production Technology, and Properties of Powders and Fibers Pages: 673 - 683
Modeling fracture in a restricted impact. II. Collective fracture of particles S. V. PavlovE. L. Gol'dberg Theory, Production Technology, and Properties of Powders and Fibers Pages: 683 - 686
Evaluation of the homogeneity of mixing nickel powders with titanium I. A. Drozdov Theory, Production Technology, and Properties of Powders and Fibers Pages: 686 - 689
Properties and structure of powdered highly disperse electrolytic iron obtained with different rotational speeds of the disk cathode M. M. KhvorovN. A. ZemlyakT. M. Shvets Theory, Production Technology, and Properties of Powders and Fibers Pages: 689 - 691
Oxidation of aluminum in ultradispersed state in air A. P. Il'inL. T. Proskurovskaya Theory, Production Technology, and Properties of Powders and Fibers Pages: 692 - 695
Comminution of cast-iron swarf in a rotating magnetic field B. G. ArabeiA. V. Vasil'evV. L. Ésikman Theory, Production Technology, and Properties of Powders and Fibers Pages: 696 - 699
Effect of prolonged heating on the oxidation features of titanium carbide hard alloy V. B. VoitovichÉ. I. GolovkoN. N. Sereda Theory and Technology of Sintering, Heat, and Chemical Heat Treatment Processes Pages: 700 - 704
Effect of phase composition of TiN-Ni sintered electrode materials on characteristics of the ESA process F. F. EgorovV. I. Novikova Theory and Technology of Sintering, Heat, and Chemical Heat Treatment Processes Pages: 705 - 710
Effect of the parameters of dynamic hot pressing on the structure and properties of the powder material ZhGr0.8D2N3G3CaF214. II. Heating temperature and time before dynamic hot pressing, protective atmosphere in sintering and dispersity of solid lubricant Yu. G. DorofeevG. Sh. MusaélovA. T. Mamedov Powder-Metallurgy Materials, Products, and Coatings Pages: 711 - 715
The state of the surface layer of high speed steel after abrasive treatment A. A. AdamovskiiS. V. KlimenkoYu. V. Mil'man Powder-Metallurgy Materials, Products, and Coatings Pages: 716 - 720
Strength of diamond-containing composite material based on tungsten carbide hard alloy D. Kh. BronshteinA. L. MaistrenkoN. V. Tsypin Powder-Metallurgy Materials, Products, and Coatings Pages: 720 - 724
High-temperature radiation embrittlement of magnesium-beryllium powder alloys V. F. ZelenskiiI. M. NeklyudovV. I. Savchenko Powder-Metallurgy Materials, Products, and Coatings Pages: 725 - 727
X-Ray study of silicon carbide fibers G. P. GrinevichN. I. ZakharenkoP. M. Silenko Powder-Metallurgy Materials, Products, and Coatings Pages: 728 - 731
The electronic structure of W2Cx nonstoichiometric tungsten carbides O. Yu. KhizhunE. A. ZhurakovskiiYa. V. Zaulichnyi Methods of Investigation and Properties of Powder Materials Pages: 732 - 737
Influence of magnetic boiling conditions on the degree of breakdown of floccules of finely-dispersed powders Yu. M. VernigorovS. I. EgorovaG. F. Lemeshko Methods of Investigation and Properties of Powder Materials Pages: 738 - 741
Powder materials with specified electrical and magnetic properties for heavy and two-layer rotors of asynchronous motors É. A. AnisimovaA. M. OleinikovG. G. Serdyuk Methods of Investigation and Properties of Powder Materials Pages: 741 - 744
An investigation of the structure of powder metallurgy iron with different porosities by scanning electron microscopy A. E. KushchevskiiV. T. Bondar'O. M. Romanenko Methods of Investigation and Properties of Powder Materials Pages: 745 - 748
Evaluation of the electrical conductivity of silicon carbide powders by the electron paramagnetic resonance method A. S. KheifetsS. V. KazakovE. Ya. Litvoskii Methods of Investigation and Properties of Powder Materials Pages: 749 - 752
A rheological model of pressing of powders M. S. Koval'chenko Methods of Investigation and Properties of Powder Materials Pages: 753 - 756
Acoustic characteristics of powder metallurgy Invar alloys. II. The character of changes in parameters in the −100 to +500°C range V. A. VershininV. I. KostikovN. D. Pautkov Methods of Investigation and Properties of Powder Materials Pages: 757 - 758