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                         6.     Zvirko O., Tsyrulnyk O., Venhryniuk O., Nykyforchyn H. Hydrogen

                  related issues at hydrogen transport via existing gas pipelines. Lecture Notes in

                  Intelligent Transportation and Infrastructure. 2025. Part F230. P. 210–219. Book

                  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).
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