Page 187 - Дисертаця Венгринюк
P. 187
187
Chapter. DOI: 10.1007/978-3-031-85390-6_21 (Scopus, Web of Science Core
Collection).
7. Nykyforchyn H. M., Zvirko O. I., Tsyrulnyk O. T., Venhryniuk O. I.
Assessing hydrogen embrittlement of gas pipeline steels using fracture mechanics
approaches. International Applied Mechanics. 2025. Vol. 61. P. 207–211. DOI:
10.1007/s10778-025-01346-5 (Scopus, Web of Science Core Collection;
квартиль Q3).
8. Zvirko O. I., Tsyrulnyk O. T., Krechkovska H. V., Hredil M. I.,
Nykyforchyn H. M., Venhryniuk O. I., Tsybailo I. O. The influence of the
structural-mechanical state of the gas transit pipeline steel on the susceptibility to
hydrogen embrittlement. Materials Science. 2024. Vol. 60, No 1. P. 20–26. DOI:
10.1007/s11003-024-00845-z (Scopus, Web of Science Core Collection;
квартиль Q3).
9. Zvirko O.I., Tsyrulnyk O.T., Krechkovska H.V., Venhryniuk O.I.,
Nykyforchyn H.M. The influence of the crack morphology caused by
delaminations in the operated ferrite-pearlite steel on its fracture toughness.
Materials Science. 2025. Vol. 60, No 6. P. 729–735. DOI: 10.1007/s11003-025-
00943-6 (Scopus, WoS; квартиль Q3).
10. Nykyforchyn H., Tsyrulnyk O., Venhryniuk O., Zvirko O.
Techniques for investigation of hydrogen influence on fracture toughness and
embrittlement of pipeline steels. Procedia Structural Integrity. 2024. Vol. 59.
P. 125–130. DOI: 10.1016/j.prostr.2024.04.019 (Scopus).
11. Nykyforchyn H., Tsyrulnyk O., Krechkovska H., Hredil M.,
Venhryniuk O. The effect of in-service degradation of X52 gas pipe steel on
fracture toughness of hydrogenated specimens evaluated by the J-integral method.
Procedia Structural Integrity. 2025. Vol. 68. P. 861–867. DOI:
10.1016/j.prostr.2025.06.142 (Scopus).
Наукові праці, які засвідчують апробацію матеріалів дисертації
12. Venhryniuk O. I., Zvirko O. I. Predicting hydrogen distribution in
steel pipes using physics-informed neural networks. Advanced & Novel

