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                         48.  STP-PT-006  Design  Guidelines  for  Hydrogen  Piping  and  Pipelines.

                  ASME 2007. 36 р.

                         49.  Amaro R. L., Drexler E. S., Slifka A. J. Fatigue crack growth modeling

                  of  pipeline  steels  in  high  pressure  gaseous  hydrogen.  International  Journal  of

                  Fatigue. 2014. Vol. 62. P. 249–257.

                         50.  Slifka A. J., Drexler E. S., Nanninga N. E. et al. Fatigue crack growth of

                  two pipeline steels in a pressurized hydrogen environment. Corrosion Science. 2014.

                  Vol. 78. P. 313–321.

                         51.  Cauwels  M.,  Depraetere  R.,  De  Waele  W.  et  al.  Influence  of

                  electrochemical hydrogenation parameters on microstructures prone to hydrogen-

                  induced cracking. Journal of Natural Gas Science and Engineering. 2022. Vol. 101.

                  Article No. 104533.

                         52.  Li J., Zhao Y., Guo H. et al. Relationship between hydrogen diffusion

                  and  blistering  nucleation  and  growth.  Journal  of  Iron  and  Steel  Research

                  International. 2016. Vol. 23, No. 3. P. 239–247.

                         53.  Zhang L., Shen H., Lu K. et al. Investigation of hydrogen concentration


                  and  hydrogen  damage  on API  X80  steel  surface  under  cathodic  overprotection.
                  International Journal of Hydrogen Energy. 2017. Vol. 42, No. 50. P. 29888–29896.


                         54.  Pérez Escobar D., Miñambres C., Duprez L. et al. Internal and surface
                  damage of multiphase steels and pure iron after electrochemical hydrogen charging.


                  Corrosion Science. 2011. Vol. 53, No. 10. P. 3166–3176.
                         55.  Koren E., Hagen C. M. H., Wang D. et al. Experimental comparison of


                  gaseous  and  electrochemical  hydrogen  charging  in  X65  pipeline  steel  using  the

                  permeation technique. Corrosion Science. 2023. Vol. 215. Article No. 111025.

                         56.  Gangloff  R.  P.,  Somerday  B.  P.  Gaseous  Hydrogen  Embrittlement  of

                  Materials  in  Energy  Technologies:  Mechanisms,  Modelling  and  Future

                  Developments. Amsterdam: Elsevier, 2012. 520 p.

                         57.  Zhao  W.,  Zhang  T.,  Zhao  Y.  et  al.  Hydrogen  permeation  and

                  embrittlement  susceptibility  of  X80  welded  joint  under  high-pressure  coal  gas

                  environment. Corrosion Science. 2016. Vol. 111. P. 84–97.
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