Page 307 - DISS_NYRKOVA
P. 307
307
107. Flis J., Ziomek-Moroz M. Effect of carbon on stress corrosion
cracking and anodic oxidation of iron in NaOH solutions. Corrosion Science.
2008. Vol. 50. № 6. P. 1726–1733.
108. Microstructure Dependence of Stress Corrosion Cracking Initiation
in X-65 Pipeline Steel Exposed to a Near-Neutral pH Soil Environment / R.
Chu et al. Corrosion. 2004. Vol. 60. № 3. P. 275–283.
109. Saleem B., Ahmed F., Rafiq M.A., Ajmal M., Ali L. Stress corrosion
failure of an X52 grade gas pipeline. Engineering Failure Analysis. 2014.
Vol. 46. P. 157–165.
110. Chen W., Wang S.-H., Chu R., King F., Jack T. R., Fessler R. R.
Effect of precyclic loading on stress-corrosion-cracking initiation in an X-65
pipeline steel exposed to near-neutral pH soil environment. Metallurgical and
Materials Transactions A. 2003. Vol. 34. № 11. P. 2601–2608.
111. Bulger J. T., Lu B. T., Luo J. L. Microstructural effect on near-
neutral pH stress corrosion cracking resistance of pipeline steels. Journal of
Materials Science. 2006. Vol. 41. № 15. P. 5001–5005.
112. Liu Z. Y., Li X. G., Du C. W., Lu L., Zhang Y. R., Cheng Y. F.
Effect of inclusions on initiation of stress corrosion cracks in X70 pipeline steel
in an acidic soil environment. Corrosion Science. 2009. Vol. 51. № 4.
P. 895–900.
113. Lu B. T., Luo J. L. Relationship between yield strength and near-
neutral pH Stress Corrosion Cracking Resistance of Pipeline Steels—An effect
of microstructure. Corrosion. 2006. Vol. 62. № 2. P. 129–140.
114. Bordbar S., Alizadeh M., Hashemi S.H. Effects of microstructure
alteration on corrosion behavior of welded joint in API X70 pipeline steel.
Materials & Design. 2013. Vol. 45. P. 597–604.
115. Спиридович Е. А. Повышение надежности магистральных
газопроводов в условиях коррозионного растрескивания под напряженим:
дисс. … докт. дехн. наук: 25.00.19. захист 25.12.14. п. Развилка,
Московской области: ООО « Газпром ВНИИГАЗ». 2014. 422 с.
