Cyclic plasticity and low cycle fatigue damage characterisation of thermally simulated X100Q heat affected zone

Ronan J. Devaney; Heiner Oesterlin; Padraic E. O’Donoghue; Sean B. Leen

doi:10.1051/matecconf/201816503002

All issues

Volume 165 (2018)

MATEC Web Conf., 165 (2018) 03002

References

Open Access

Issue		MATEC Web Conf. Volume 165, 2018 12^th International Fatigue Congress (FATIGUE 2018)


Article Number		03002
Number of page(s)		8
Section		Corrosion Fatigue & Environmental Effects
DOI		https://doi.org/10.1051/matecconf/201816503002
Published online		25 May 2018

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Q. Guiying, Z. Ming, G. U. Yu, H. A. N. Xiulin, W. Xu, X. Furen, and L. Bo, “Mechanical Properties of the Heat Affected Zone of an X100 Grade Pipeline Steel,” in Advances in Materials and Processing Technologies XV, 2014, pp. 795– 802. [Google Scholar]
R. J. Devaney, P. E. O’Donoghue, and S. B. Leen, “Experimental characterisation and computational modelling for cyclic elasticplastic constitutive behaviour and fatigue damage of X100Q for steel catenary risers,” Int. J. Fatigue, Under review, 2018. [Google Scholar]
P. Mac Ardghail, N. Harrison, and S. B. Leen, “A through-process, thermomechanical model for predicting welding-induced microstructure evolution and post-weld high temperature fatigue response,” Int. J. Fatigue, In press, 2018. [Google Scholar]
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Z. X. Qiao, Y. C. Liu, L. M. Yu, and Z. M. Gao, “Formation mechanism of granular bainite in a 30CrNi3MoV steel,” J. Alloys Compd., vol. 475, no. 1–2, pp. 560–564, 2009. [CrossRef] [Google Scholar]
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[1] M. Abelanet, D. Karunakaran, R. Jones, S. Eyssautier, and P. White, “Deepwater steel catenary risers require attention to fatigue factors,” Offshore magazine, no. 10. Oct-2013. [Google Scholar]

[2] R. J. Devaney, P. E. O’Donoghue, and S. B. Leen, “Global and local fatigue analysis of X100 and X60 steel catenary riser girth welds,” J. Struct. Integr. Maint., vol. 2, no. 3, pp. 181–189, Jul. 2017. [CrossRef] [Google Scholar]

[3] D. A. Ringinen, A. V Chastukhin, G. E. Khadeev, L. I. Efron, and P. P. Stepanov, “A WELDABILITY STUDY OF STEEL OF STRENGTH CLASS X100,” Metallurgist, vol. 57, no. 12, pp. 68–74, 2013. [Google Scholar]

[4] Q. Guiying, Z. Ming, G. U. Yu, H. A. N. Xiulin, W. Xu, X. Furen, and L. Bo, “Mechanical Properties of the Heat Affected Zone of an X100 Grade Pipeline Steel,” in Advances in Materials and Processing Technologies XV, 2014, pp. 795– 802. [Google Scholar]

[5] R. J. Devaney, P. E. O’Donoghue, and S. B. Leen, “Experimental characterisation and computational modelling for cyclic elasticplastic constitutive behaviour and fatigue damage of X100Q for steel catenary risers,” Int. J. Fatigue, Under review, 2018. [Google Scholar]

[6] P. Mac Ardghail, N. Harrison, and S. B. Leen, “A through-process, thermomechanical model for predicting welding-induced microstructure evolution and post-weld high temperature fatigue response,” Int. J. Fatigue, In press, 2018. [Google Scholar]

[7] J. Morrow, “Cyclic Plastic Strain Energy and Fatigue of Metals,” in Internal Friction, Damping, and Cyclic Plasticity, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959: ASTM International, 1965, pp. 45– 87. [CrossRef] [Google Scholar]

[8] H. Wang, F. Wang, G. Shi, Y. Sun, J. Liu, Q. Wang, and F. Zhang, “Effect of quenching temperature on microstructure and yield strength of Q-T-treated X100Q bainitic steel,” Mater. Res. Express, no. 475, pp. 560–564, Mar. 2018. [Google Scholar]

[9] Z. X. Qiao, Y. C. Liu, L. M. Yu, and Z. M. Gao, “Formation mechanism of granular bainite in a 30CrNi3MoV steel,” J. Alloys Compd., vol. 475, no. 1–2, pp. 560–564, 2009. [CrossRef] [Google Scholar]

[10] J. A. Francis, W. Mazur, and D. H. Bhadeshia, “Review Type IV cracking in ferritic power plant steels,” Mater. Sci. Technol., vol. 22, no. 12, pp. 1387–1395, Dec. 2006. [CrossRef] [Google Scholar]