Esis technical committee 10 “environmentally assisted cracking” W. Dietzel OriginalPaper Pages: 397 - 400
Esis TC 10 subcommittee on hydrogen degradation O. E. AndreikivH. M. Nykyforchyn OriginalPaper Pages: 401 - 402
Micromechanical aspects of hydrogen degradation in high-strength structural steels J. Toribio OriginalPaper Pages: 403 - 410
Stress corrosion cracking by anodic dissolution and hydrogen permeation in pipeline steels S. Di LibertoG. Gabetta OriginalPaper Pages: 411 - 420
Investigations of the influence of hydrogen on metals carried out in the karpenko physicomechanical institute V. I. Pokhmurs'kyi OriginalPaper Pages: 421 - 435
Novel metal-hydride materials and technologies: Recent advances and further prospects V. A. Yartys'I. R. HarrisV. V. Panasyuk OriginalPaper Pages: 436 - 449
Mathematical modeling of hydrogen-assisted fracture in metals O. E. Andreikiv OriginalPaper Pages: 450 - 464
The role of the interface reaction in the kinetics of the nonsteady-state permeation of hydrogen E. LunarskaN. Kropyvnyi OriginalPaper Pages: 465 - 477
Analytic evaluation of hydrogen-assisted void growth at high temperatures I. D. Skrypnyk OriginalPaper Pages: 478 - 490
Finite-element modeling of stress-assisted hydrogen diffusion in 316L stainless steel R. CortésA. ValienteJ. Toribio OriginalPaper Pages: 491 - 503
Effect of hydrogen on the kinetics and mechanism of fatigue crack growth in structural steels H. M. Nykyforchyn OriginalPaper Pages: 504 - 515
Stress corrosion cracking—A new approach to testing methods W. DietzelS. K. Ghosal OriginalPaper Pages: 516 - 523
Distinctive features of hydrogen degradation of heat-resistant alloys based on nickel V. I. TkachevI. M. LevinaL. M. Ivas'kevych OriginalPaper Pages: 524 - 531
Fatigue crack growth in 15KH2MFA steel subjected to aging in high-temperature hydrogen O. Z. StudentB. P. Lonyuk OriginalPaper Pages: 532 - 538
Corrosion-mechanical characteristics of the materials of nonmagnetic shroud rings of turbogenerators. I. 8Mn−8Ni−4Cr and 18Mn−4Cr steels O. I. Balyts'kyi Science for Production Pages: 539 - 552
Effect of electrolytic hydrogenation on the process of cutting of carbon steels A. A. PasechnikO. T. Tsyrul'nykI. M. Pravors'kyi Science for Production Pages: 553 - 559
Distinctive features of hydrogenation in the processes of electrolytic zinc plating of copper and cadmium plating of steel S. N. Rodnikov Science for Production Pages: 560 - 564
Evaluation of the degree of hydrogenation of steel by acoustic analysis N. M. Agaev Science for Production Pages: 565 - 567
Strength tests in hydrogen in the aerospace industry A. V. FishgoitB. A. Kolachev Science for Production Pages: 568 - 573