THE EFFECT OF MECHANICAL FACTORS ON SCC INITIATION OF PIPELINE STEEL

J Chin Soc Corr Pro

2008, Vol. 28

Issue (5): 282-286 DOI:

Research Articles

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THE EFFECT OF MECHANICAL FACTORS ON SCC INITIATION OF PIPELINE STEEL

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中国科学院金属研究所金属腐蚀与防护国家重点实验室

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Abstract The influence of stress ratio, loading frequency and additional stress on TGSCC initiation of X70 pipeline steel was mainly studied and ESEM observations of corrosion sample surfaces were carried out. The results showed that: low stress ratio increased the fluctuation of load, which facilitated the crack initiation of SCC of pipeline steel; the low frequency was in favor of initiation of TGSCC when the samples endured the same cycles of the fluctuating load; but the fast frequency was benefit to TGSCC initiation when the samples suffered the same time of the fluctuating load; and in our work no obvious effect of additional stress on the crack initiation was observed.

Key words: pipeline steel stress corrosion cracking (SCC) stress ratio frequency crack initiation

Received: 08 January 2007

ZTFLH:

TG172.9

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. THE EFFECT OF MECHANICAL FACTORS ON SCC INITIATION OF PIPELINE STEEL. J Chin Soc Corr Pro, 2008, 28(5): 282-286 .

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https://www.jcscp.org/EN/ OR https://www.jcscp.org/EN/Y2008/V28/I5/282

[1]Sutcliffe J M,Fesseler R R.Stress corrosion cracking of carbonsteel in carbonate solutions[J].Corrosion,1972,28(8):313-320
[2]Pilkey A K,Lambert S B,Plumtree A.Stress corrosion crackingof X-60 pipeline steel in a carbonate-bicarbonate solution[J].Corrosion,1995,51(2):91-96
[3]Parkins R N,Blanchard Jr W K,Delanty B S.Transgranularstress corrosion cracking of high-pressure pipelines in contactwith solutions of near neutral pH[J].Corrosion,1994,50(5):394-408
[4]Wang Y Z,Revie R W,Shehata M T.Early stages of stress corro-sion crack development of X-65 pipeline steel in near-neutral pHsolution[A].Proceedings of the International Symposium on Ma-terials for Resource Recovery and Transport[C].The MetallurgicalSociety of CIM,1998:71-94
[5]He D X,Chen W X,Luo J L,et al.Effect of surface scratch rough-ness and orientation on the development of SCC of pipeline steelin near neutral pH environment[A].2001 International PipelineConference[C].ASME,2000,2:998-1004
[6]Henthorne M,Parkins R N.Some aspects of stress corrosion crackpropagation in mild steel[J].Corros.Sci.,1966,6(8):360-361
[7]Mao X,Liu X,Revie R W.Pitting corrosion of pipeline steel indilute bicarbonate solution with chloride ion[J].Corrosion,1994,50(9):651-657
[8]Wilmott M J,Sutherby R L.The role of pressure and pressurefluctuations in the growth of stress corrosion cracks in pipelinesteels[A].International Pipeline Conference[C].ASME,1998,1:409-422
[9]Hoar T P,West J M.Mechano-chemical anodic dissolution ofaustenitic stainless steel in hot chloride solution[J].Proc.RoyalSoc.London.1962,268(1334):A304-315

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