Page 174 - Дисертація на здобуття наукового ступеня доктора філософії
P. 174

174
                      88.  Никифорчин Г. М., Студент О. З., Марков А. Д. Аномальний прояв

               високотемпературної  деградації  металу  зварного  з’єднання  ощаднолегованої

               сталі. Фізико-хімічна механіка матеріалів. 2007. Т. 43, № 1. С. 73–79.

                      89.  Basukumar H. K., Arun K. V. Experimental approach to study the effect of

               hydrogen embrittlement on structural steel under the influence of impact loading and

               wear  characterization.  International  Journal  of  Science  Technology  &  Engineering

               (IJSTE). 2016. Vol. 3, No. 4. P. 108–113.

                      90.  Ćwiek J., Łabanowski J., Topolska S. The effect of long-term service at

               elevated  temperatures  on  structure  and  mechanical  properties  of  Cr-Mo-V  steel.

               Archives of Materials Science and Engineering. 2011. Vol. 49, No. 1. P. 33–39.

                      91.  Andreikiv O. E. Mathematical modeling of hydrogen-assisted fracture in

               metals. Materials Science. 1997. Vol. 33, No. 4. P. 450–464.

                      92.  Tkachov  V.  I.  Problems  of  hydrogen  degradation  of  metals.  Materials

               Science. 2000. Vol. 36, No. 4. P. 481–488.

                      93.  Tkachov V. I., Ivas’kevych L. M., Voznychak O. M. Degradation of steel

               in gaseous hydrogen with inhibiting admixtures. Materials Science. 2007. Vol. 43, No.


               3. P. 377–382.
                      94.  Babii L. O., Student O. Z., Zagorski A., Markov A. D. Creep of degraded


               2.25 Cr-Mo steel in hydrogen. Materials Science. 2007. Vol. 43, No. 5. P. 701–707.
                      95.  Ćwiek  J.  Hydrogen  degradation  of  high-strength  steels.  Journal  of


               Achievements  in  Materials  and  Manufacturing  Engineering.  2009.  Vol.  37,  No.  2.
               P. 193–212.


                      96.  Ćwiek J. Prevention methods against hydrogen degradation of steel. Journal

               of Achievements in Materials and Manufacturing Engineering. 2010. Vol. 43, No. 1.

               P. 214–221.

                      97.  Liu Q., Atrens A. A critical review of the influence of hydrogen on the

               mechanical properties of medium-strength steels. Corrosion Reviews. 2013. Vol. 31,

               No. 3–6. P. 85–103. DOI:10.1515/corrrev-2013-0023

                      98.  Rudomilova D., Prošek T., Luckeneder G. Techniques for investigation of

               hydrogen embrittlement of advanced high-strength steels. Corrosion Reviews. 2018.
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