Hardening the surface of titanium alloys by laser alloying Yu. M. LakhtinYa. D. KoganT. A. Tumanova Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 335 - 336
Nitriding press tools for hot forming V. A. Boikov Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 337 - 337
Savings of materials and power in laser hardening O. A. GorlenkoV. F. ChistovE. N. Frolov Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 338 - 339
Technology and practice of introducing siliconizing of steel parts V. I. Udovitskii Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 339 - 340
Thermochemical treatment in vapor-gas medium M. V. OkhotinÉ. I. VrzhashchE. T. Yutsis Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 341 - 342
Efficiency of using diffusion coatings based on chromium Ya. P. BrodyakV. B. Dalisov Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 342 - 343
Heat treatment of medium-carbon Invars L. V. Pastukhova Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 343 - 344
Decrease in energy consumption with the use of plastic deformation in the subcritical temperature range S. I. Astakhov Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 344 - 345
Use of alloy powders for the production of structural parts T. P. Moskvina Savings of Metal and Power by the Introduction of Progressive Processes of Heat Treatment and Thermochemical Treatment Pages: 346 - 348
Carburizing in a nitrogen-based mixture with additives of pure methane B. M. ÉstrinO. S. MnushkinV. A. Rudman Case Hardening Pages: 349 - 353
Effect of surface preparation on the quality of components after low-temperature carbonitriding V. B. FridmanT. V. EgorshinaE. E. Chesalova Case Hardening Pages: 354 - 356
Structural stability of heat-resistant nickel alloys at high temperatures N. V. PetrushinA. V. LogunovV. A. Gorin Heat-Resistant Steels and Alloys Pages: 361 - 364
Dynamic recrystallization of KhN77TYuR alloy in isothermal deformation D. I. BraslavskiiI. A. IzakovI. N. Roshchina Heat-Resistant Steels and Alloys Pages: 365 - 368
Influence of microchills on the structure of cast KhN56VMTYu heat-resistant alloy L. S. BulavinaI. F. MilovanovN. A. Ageeva Heat-Resistant Steels and Alloys Pages: 369 - 371
Structure and properties of titanium alloys after isothermal deformation at low rates V. N. MoiseevI. A. PovarovYu. I. Kaplin Titanium and Its Alloys Pages: 372 - 377
Effect of globular structure parameters on the mechanical properties of alloy VT3-1 M. Ya. BrunG. V. ShakhanovaI. V. Soldatenko Titanium and Its Alloys Pages: 377 - 380
Evaluation of fatigue strength for large titanium alloy VT3-1 blanks taking account of material structure M. N. StepnovM. G. VeitsmanL. N. Gus'kova Titanium and Its Alloys Pages: 380 - 383
Iron coatings on alloy VT3-1 A. S. IvanovA. N. SokolovV. S. Tomsinskii Titanium and Its Alloys Pages: 384 - 386
Control of the structure of two-phase titanium alloys in thermomechanical working G. N. Kadykova Titanium and Its Alloys Pages: 386 - 389
Rules of failure of two-phase titanium alloys with different microstructures A. S. Fedotov Titanium and Its Alloys Pages: 389 - 392
Properties of cast and deformed steel 110G13L M. I. KurbatovYa. P. ProtsenkoÉ. I. Zemko Technical Information Pages: 393 - 394
Structure and mechanical properties of austenitic steels Kh16AG5N7S4 and 40Kh12G16N8F2 used for stainless steel springs O. A. BannikhV. M. BlinovN. A. Klekovkina Technical Information Pages: 395 - 398
Characteristic features of carbon redistribution on heating cast iron with vermicular graphite L. A. SolntsevL. L. Kostina Technical Information Pages: 399 - 400