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7. Nykyforchyn H. M., Zvirko O. I., Tsyrulnyk O. T., Venhryniuk O. I.
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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
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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-
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10. Nykyforchyn H., Tsyrulnyk O., Venhryniuk O., Zvirko O.
Techniques for investigation of hydrogen influence on fracture toughness and
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11. Nykyforchyn H., Tsyrulnyk O., Krechkovska H., Hredil M.,
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fracture toughness of hydrogenated specimens evaluated by the J-integral method.
Procedia Structural Integrity. 2025. Vol. 68. P. 861–867. DOI:
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