Structural changes in steel under cyclic nonuniform thermal actions V. I. IzotovG. A. Kotel'nikovT. V. Tetyueva Theory Pages: 591 - 594
Structural transformations in heat treatment of chrome-molybdenumvanadium tool steels A. F. EdneralV. I. KirienkoK. A. Lanskaya Theory Pages: 595 - 599
Kinetics of the variation in the thermoelectromotive force in the process of the first transformation during the tempering of carbon steel Yu. P. KochkinV. I. KushchevP. Ya. Shmelev Theory Pages: 600 - 602
Increase in the structural stability of a martensitic steel by controlling the α→γ transformation during tempering V. G. AzbukinE. N. BashaevaV. V. Prigoda Theory Pages: 603 - 607
Effect of austenitization conditions on the plasticity of 10GN2MFA steel in repeated heating M. B. RoshchinV. B. SapiroS. I. Markov Heat Treatment Technology Pages: 607 - 612
Effect of heat treatment on the structure and properties of sheet steel 45 for the finish cutting of components N. F. LegeidaL. V. KovalenkoT. A. Podpovetnaya Heat Treatment Technology Pages: 613 - 618
Method of heat treating magnets in an intermittent effervescing layer A. D. Vasil'evB. M. SenyushkinÉ. G. Alekseev Heat Treatment Technology Pages: 618 - 620
Predicting the deformation of bearing races during hardening V. S. MorganyukN. I. KobaskoA. N. Kulakov Heat Treatment Technology Pages: 620 - 623
Color hardening of steel components L. P. MiroshinaV. V. Mezrin Heat Treatment Technology Pages: 623 - 624
Nonoxidative heat treatment of stainless steel pipes with process oil residues V. P. KozinetsR. E. Nedel'koV. F. Movchan Heat Treatment Technology Pages: 624 - 628
Structure and hardness of steel 45 after irradiation with a CO2 laser A. G. Grigor'yantsA. N. SafonovN. Yu. Mareev Heat Treatment Employing Highly Concentrated Energy Sources Pages: 629 - 632
Laser hardening of tools T. I. Lutsenko Heat Treatment Employing Highly Concentrated Energy Sources Pages: 632 - 634
Heat resistance of steel R6M5 after laser treatment V. A. BurakovG. I. BroverN. M. Burakova Heat Treatment Employing Highly Concentrated Energy Sources Pages: 634 - 637
Methods of determining the optimum regimes of laser hardening of steels and of the quality control of hardening E. V. BrativnikV. S. VelikikhO. G. Tararaksina Heat Treatment Employing Highly Concentrated Energy Sources Pages: 637 - 640
Deformation of steels during laser hardening V. P. GoncharenkoI. N. VoronovV. S. Kartavtsev Heat Treatment Employing Highly Concentrated Energy Sources Pages: 641 - 645
Effect on wear resistance of a laser-induced hardening system for cylinder liners V. M. AndriyakhinV. A. Vasil'evN. T. Chekanova Heat Treatment Employing Highly Concentrated Energy Sources Pages: 645 - 647
Structural changes occurring in cementite of cast iron during heating L. T. KalininaV. V. MayurnikovN. I. Ivchenkova Cast Irons Pages: 648 - 650
X-ray study of phase transformations during heating of cast iron B. A. Mel'nik Cast Irons Pages: 650 - 652
Autoradiographic method of investigating the distribution of elements among the phases of cast iron A. M. Skrebtsov Cast Irons Pages: 653 - 656
Effect of tungsten on the properties of austenitic precipitation-hardening Fe-Cr-Ni alloys V. A. LarkinF. L. LevinA. G. Rakhshtadt Heat Resistant Steels and Alloys Pages: 657 - 659
Solution of γ′ phase in nickel heat-resistant aging alloys E. M. SavitskiiI. V. BurovV. A. Korol'kov Heat Resistant Steels and Alloys Pages: 660 - 662
Effect of substructure on the heat resistance of platinum alloys G. S. StepanovaE. I. RytvinM. P. Usikov Heat Resistant Steels and Alloys Pages: 662 - 664
Critical solidification temperatures and linear shrinkage of magnetically hard Fe-Cr-Co-base alloys M. M. FrolovV. P. IvanovG. P. Mironov Technical Information Pages: 665 - 668
Lamination and microlamination in parts made of TsM2A alloy sheet L. P. Karpov Technical Information Pages: 668 - 670