170
               toughness of low alloy steel components in service. Journal of Engineering Materials

               and Technology. 1994. Vol. 116, No. 4. P. 457–464

                      51.  Marinkovic  B.  A.,  de  Avillez  R.  R.,  Barros  S.  K.,  Assunção  F.  C.  R.

               Thermodynamic  evaluation  of  carbide  precipitates  in  2.25Cr–1.0Mo  steel  for

               determination of service degradation. Materials Research. 2002. Vol. 5, No. 4. P. 491–

               495. DOI: 10.1590/S1516-14392002000400016.

                      52.  Baltušnikas A., Levinskas R., Lukoštūtė I. Kinetics of carbide formation

               during ageing of pearlitic 12X1MФ steel. Materials Science. 2007. Vol. 13, Issue 4. P.

               286–292.

                      53.  Liu  Z.,  Liu  C.,  Miao  L.,  Guo  X.,  Ding  J.,  Zhang  H.  The  evolution  of

               complex  carbide  precipitates  in  a  low  alloy  Cr–Mo–V  steel  after  long-term  aging

               treatment. Materials. 2019. Vol. 12. P. 1724. DOI: 10.3390/ma12101724.

                      54.  Igwemezie V. C., Ugwuegbu C. C., Mark U. Physical metallurgy of modern

               creep-resistant steel for steam power plants: microstructure and phase transformations.

               Journal of Metallurgy. 2016. ID 5468292. P. 19. DOI: 10.1155/2016/5468292.

                      55.  Golański G. Microstructure and mechanical properties of G17CrMoV5–10


               cast steel after regenerative heat treatment. Journal of Pressure Vessel Technology,
               Transactions of the ASME. January 2009. Vol. 132, No. 6. DOI: 10.1115/PVP2009-


               77710.
                      56.  Krechkovs'ka G. V. Structural changes in exploitation of steam power plant


               pipeline  15Kh1M1F-type  steel  concerning  with  shut  downs  of  power  units.
               Metallofizika i Noveishie Tekhnologii. 2008. Vol. 30 (SPEC. ISS.). P. 701–711.


                      57.  Landes J. D., Begley J. A. Test results from J-integral studies: an attempt

               to establish a JIc testing procedure. Fracture Analysis, STP 560. N.Y.: ASTM, 1974.

               P. 170–186.

                      58.  Похмурський В. І., Федоров В. В. Вплив водню на дифузійні процеси

               в металах. Львів: Фіз.-мех. ін-т ім. Г. В. Карпенка НАН України, 1998. 208 с.

                      59.  Ostash  O.  P.,  Vol'demarov  O.  V.,  Hladysh  P.  V.,  Ivasyshyn  A.  D.

               Evaluation of the degradation of steels of steam pipelines according to their structural,

               mechanical,  and  electrochemical  characteristics.  Materials  Science.  2010.  Vol.46,