Page 162 - Дисертаця Венгринюк
P. 162

162

                         36.  Cheng  A.,  Chen  N.-Z.  Fatigue  crack  growth  modelling  for  pipeline

                  carbon steels under gaseous hydrogen conditions. International Journal of Fatigue.

                  2017. Vol. 96. P. 152–161.

                         37.  Oriani R. A. A mechanistic theory of hydrogen embrittlement of steels.


                  Berichte  der  Bunsengesellschaft  für  physikalische  Chemie.  1972.  Vol.  76.
                  P. 848–857.

                         38.  Zvirko  O.  Development  of  the  methodology  for  assessing  the

                  serviceability  of  existing  gas  pipelines  of  Ukraine  under  green  hydrogen

                  transportation. Procedia Structural Integrity. 2024. Vol. 59. P. 120–124.

                         39.  Zvirko  O. I.  In-service  degradation  of  structural  steels  (A  Survey).

                  Materials Science. 2022. Vol. 57, No. 3. Р. 319–330.

                         40.  Nykyforchyn H., Zvirko O., Dzioba I. et al. Assessment of operational

                  degradation of pipeline steels. Materials. 2021. Vol. 14, No. 12. Article No. 3247.

                         41.  Vergani  L.,  Colombo  Ch.,  Go  G.  et  al.  Hydrogen  effect  on  fatigue


                  behavior  of  a  quenched  and  tempered  steel.  Procedia  Engineering.  2014.  74.
                  Р. 468–471.


                         42.  Troiano A. The role of hydrogen and other interstitials in the mechanical
                  behavior of metals. Transactions of the ASM. 1960. Vol. 52. P. 54–81.


                         43.  Birnbaum H. K., Sofronis P. Hydrogen-enhanced localized plasticity – a
                  mechanism  for  hydrogen-related  fracture.  Materials  Science  and  Engineering A.


                  1994. Vol. 176, No. 1–2. P. 191–202.
                         44.  Nagumo M. Hydrogen related failure of steels – a new aspect. Materials


                  Science and Technology. 2004. Vol. 20, No. 8. P. 940–950.

                         45.  Lynch  S.  P.  Hydrogen  embrittlement  phenomena  and  mechanisms.

                  Corrosion Reviews. 2012. Vol. 30. P. 105–123.

                         46.  Robertson I. M., Sofronis P., Nagao A. et al. Hydrogen embrittlement

                  understood.  Metallurgical  and  Materials  Transactions  A.  2015.  Vol.  46.

                  P. 2323–2341.

                         47.  ASME B31.12. Hydrogen Piping and Pipelines. The American Society

                  of Structural Engineers: New York, NY, USA, 2023. 219 p.
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