Page 301 - DISS_NYRKOVA
P. 301
301
Science. 1997. Vol. 39. № 1. Р. 175–191.
52. Савеня А. А., Савеня С. Н. Пути снижения стресс-коррозионной
повреждаемости действующих газопроводов. Интернет-вестник
ВолгГАСУ. Политематическая сер. 2007. Вып. 2. № 3. C. 1–3.
53. Ибрагимов А. А. Методы прогнозирования долговечности
трубопроводов с учетом коррозии и переменных напряжений / Под науч.
ред. А. Б. Шабарова, С. Ю. Подорожникова. Тюмень : ТюмГНГУ.
2011. 76 с.
54. Mohtadi-Bonab M. A. Effects of different parameters on initiation and
propagation of stress corrosion cracks in pipeline steels: A Review. Metals.
2019. Vol. 9. № 5. Р. 590.
55. Afanasyev A. V., Mel’nikov A. A., Konovalov S. V., Vaskov M. I.
The Analysis of the Influence of Various Factors on the Development of Stress
Corrosion Defects in the Main Gas Pipeline Walls in the Conditions of the
European Part of the Russian Federation. International Journal of Corrosion.
2018. Vol. 2018. Article ID 1258379. P. 1–10.
56. Parkins R.N. Mechanistic aspects of intergranular stress corrosion
cracking of ferritic steels. Corrosion. 1996. Vol. 52. № 5. Р. 363–374.
57. Lynch S. Mechanistic and fractographic aspects of stress corrosion
cracking. Corrosion Reviews. 2012. Vol. 30. № 3-4. Р. 63-104.
58. Liu Z.Y., Lu L., Huang Y.Z., Du C.W., Li X.G. Mechanistic aspect of
non-steady electrochemical characteristic during stress corrosion cracking of an
X70 pipeline steel in simulated underground water. Corrosion. 2014. Vol. 70. №
7. Р. 678–685.
59. Beavers J.A. Frank Newman Speller Award Lecture: Integrity
management of natural gas and petroleum pipelines subject to stress corrosion
cracking. Corrosion. 2014. Vol. 70. № 1. Р. 3-18.
60. Fang B., Han E.-H., Wang J., Ke W. Mechanical and Environmental
Influences on Stress Corrosion Cracking of an X-70 Pipeline Steel in Dilute
Near-Neutral pH Solutions. Corrosion. 2007. Vol. 63. № 5. Р. 419–432.
