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| Vytvytskyi V. I. High-pressure hydrogen resistance of iron-, nickel- and titanium-based alloys | 7 |
| Glazunov H. P., Andreiev A. A., Baron D. I., Volkov Ye. D., Kytaievskyi K. M., Konotopskyi A. L., Lapshyn V. I., Nekliudov I. M., and Patokin A. P.Hydrogen permeability and erosion of W-Pd bimetal system | 19 |
| Skriabina N. Ye., Spivak L. V., Frushar D., Sheliakov Î. V. The influence of hydrogen on the properties of quick quenched TiNi-TiCu alloys with the shape memory | 28 |
| Dietzel W. The use of crack tip opening displacement for testing of hydrogen embrittlement of high-strength steels | 35 |
| Panin A. V. Mechanical behaviour of hydrogenated ÂÒ1-0 commercial titanium | 41 |
| Shmakov A. A., Kalin B. A., Matvienko Yu. H., Singh R. N., De P. K. Diffusion model of retarded hydrogen induced cracking of zirconium alloys | 49 |
| Tkachov V. I., Ivaskevych L. M., and Voznychak O. M. The influence of hydrogen on mechanical properties of welded joints of 03Õ12Í10ÌÒ steel and ÕÍ55ÌÁÞ alloy | 55 |
| Miakush O., Verbovytskyi Yu., Saldan I., Kovalchuk I., Zavalii I., and Kotur B. Synthesis and determination of crystal structure of Er(Fe, V)2 hydride compounds, where M = Fe or Co | 62 |
| Bulyk I. I., Basaraba Yu. B., and Trostianchyn A. M. The influence of titanium on hydrogen-induced transformations in Laves zirconium-based phases | 67 |
| Krashanitsa R. and Shkarayev S. Theoretical study of the dynamic response of bars composed of dissimilar materials | 73 |
| INVESTIGATION AND TEST METHODS | |
| Skalskyi V. R., Andreikiv O. Ye., Sulym H. T., and Mykhalchuk V. B. The express-method for determination by AE signals of alloys susceptibility to hydrogen degradation | 85 |
| SCIENCE FOR PRODUCTION | |
| Belogurov A. I., Rachuk V. S., Rudis M. A., Sushkov A. M., and Kholodnyi V. I. Strength calculation of structural elements of hydrogen power engineering | 89 |
| Zielinski A., Lunarska E., Michalak P., and Serbinski W. Strength deterioration of 26H2MF and 34HNM steels used in ship engines: hydrogen factor | 95 |
| Cwiek J. and Nikiforow K. Hydrogen degradation of high-strength weldable steels in sea-water | 101 |
| Nykyforchyn H. M., Student O. Z., Stepanyuk S. M., Dzioba I. R., Markov A. D., and Onyshchak Ya. D. Degradation of welded joints of thermal power plants steam pipes in hydrogenating environment | 105 |
| Tsyrulnyk O. T., Kryzhanivskyi Ye. I., Petryna D. Yu., Taraievskyi O. S., and Hredil M. I. Susceptibility to hydrogen brittleness of 17Ã1Ñ steel welded joints in the main pipeline | 111 |
| Kasatkin G. M. The influence of nonmetallic inclusions on mechanical properties of hydrogenated steels | 115 |
| IN SCIENTIFIC CIRCLES | |
| Nykyforchyn H. M. The state of the art and perspectives of investigations of corrosion-mechanical fracture of metals | 120 |
| List of papers published in “Physicochemical Mechanics of Materials” in 2004 | 122 |
| Authors’ index | 127 |