Page 167 - Дисертаця Венгринюк
P. 167

167

                  pressure hydrogen pre-charged samples. International Journal of Hydrogen Energy.

                  2019. Vol. 44, No. 29. Р. 15634–15643.

                         86.  Álvarez  G.,  Zafra  A.,  Belzunce  F. J.  et  al.  Hydrogen  embrittlement

                  analysis in a CrMoV steel by means of SENT specimens. Theoretical and Applied

                  Fracture Mechanics. 2020. Vol. 106. Article No. 102450.

                         87.  Wang  H.,  Tong  Z.,  Zhou  G.  et  al.  Research  and  demonstration  on

                  hydrogen  compatibility  of  pipelines:  a  review  of  current  status  and  challenges.

                  International Journal of Hydrogen Energy. 2022. Vol. 47, No. 66. Р . 28585–604.

                         88.  Nykyforchyn H., Tsyrulnyk O.,  Zvirko O. et al. Role of hydrogen in

                  operational  degradation  of  pipeline  steel.  Procedia  Structural  Integrity.  2020.

                  Vol. 28. Р. 896–902.

                         89.  Tsyrul’nyk O. T., Voloshyn V. A., Petryna D. Yu. et al. Degradation of

                  properties of the metal of welded joints in operating gas mains. Materials Science.

                  2011. Vol. 46, No. 5. P. 628–632.

                         90.  Zhang  C.,  Zhang  Q.,  Chen  W.  et  al.  Assessment  of  corrosion  and

                  mechanical properties degradation of pipeline steel after long term service in high


                  sour gas-field environments. IPTC 2013: Int. Petroleum Technology Conf. 2013.
                  Article No. IPTC-16607-MS. 10 р.


                         91.  Maruschak P., Bishchak R., Konovalenko I. et al. Effect of long term
                  operation  on  degradation  of  material  of  main  gas  pipelines.  Materials  Science


                  Forum. 2014. Vol. 782. P. 279–283.
                         92.  Maruschak  P.  O.,  Danyliuk  I.  M.,  Bishchak  R. T.,  Vuherer  T.  Low


                  temperature  impact  toughness  of  the  main  gas  pipeline  steel  after  long-term

                  degradation. Central European Journal of Engineering. 2014. Vol. 4. Р . 408–415.

                         93.  Zvirko O., Gabetta G., Tsyrulnyk O., Kret N. Assessment of in-service

                  degradation of gas pipeline steel taking into account susceptibility to stress corrosion

                  cracking. Procedia Structural Integrity. 2019. Vol. 16. P. 121–125.

                         94.  Zvirko O. I., Kryzhanivskyi E. I., Nykyforchyn H. M. et al. Methods for

                  the evaluation of corrosion-hydrogen degradation of steels of oil-and-gas pipelines.

                  Materials Science. 2021. Vol. 56, No. 5. P. 585–592.
   162   163   164   165   166   167   168   169   170   171   172