Structural strength of steels with a structure of temper martensite O. N. RomanivA. N. Tkach Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 309 - 313
Hydrogen embrittlement and the structural state of steel V. I. Sarrak Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 314 - 320
Alloying and the structure of constructional steels resistant to hydrogen embrittlement V. N. Zikeev Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 320 - 326
Features of the fracture of controlled rolled steel A. P. Gulyaev Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 327 - 330
Effect of electroslag remelting on the structure and properties of steel 9Kh2MF Yu. A. BashninV. N. IsakinaL. I. Maslov Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 330 - 335
Effect of vanadium on the structure and mechanical properties of nonmagnetic high-nitrogen steels O. A. BannykhV. M. BlinovS. A. Kunavin Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 335 - 337
Mechanical properties and structural regularities of deformation and fracture of amorphous iron — Nickel base alloys V. P. AlekhinV. PompeI. Edelman Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 338 - 341
Increasing the design strength of steels by laser hardening E. A. ShurS. S. VoinovI. I. Kleshcheva Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 341 - 344
Strength and phase composition of high-speed steel R6M5 I. K. Kupalova Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 344 - 346
Use of mathematical modeling to study the formation processes of the surface layer of components formed from low-alloy low-carbon steels subject to friction hardening A. A. Levchenko Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 346 - 348
Surface hardening of piston rings by nitriding in glow discharge A. D. Sokolov Methods of Increasing the Structural Strength of Alloys by Heat Treatment and Chemicothermal Treatment Pages: 349 - 351
Structure and phase composition of a diffusion aluminized coating E. V. KnyazevB. M. VoshedchenkoA. I. Tsepin Chemicothermal Treatment Pages: 352 - 354
Oxidation activation of boriding with rapid high-frequency induction heating B. N. Polyakov Chemicothermal Treatment Pages: 355 - 359
Liquid boriding in induction salt baths A. N. SimonenkoV. A. ShestakovV. N. Poboinya Chemicothermal Treatment Pages: 360 - 361
Chemicothermal treatment of alloy VT6 to improve antifriction properties V. M. YankoYu. N. VeretennikovO. Z. Lifshits Chemicothermal Treatment Pages: 362 - 363
Structural features and properties of deformed white cast iron alloyed with vanadium, niobium, and titanium L. I. AgapovaT. S. VetrovaA. A. Zhukov Castiron Pages: 364 - 367
Surface hardening of gray cast iron by induction fusion G. Sh. KiriyaYu. K. BuninaL. Kh. Ivanova Castiron Pages: 368 - 370
Ultrasonic inspection of heat-treatment quality for large press forgings V. A. KokorevV. I. Garina Technical Information Pages: 371 - 372