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| Title: |
Impact of crystallographic texture on hydrogen-induced cracking susceptibility in pipeline steels |
| Category: |
Technical papers from the Journal of Pipeline Engineering
|
| Downloadable: |
Yes  |
| Project No.: |
|
| Research
Agency: |
|
| Catalog No.: |
2132s |
| Date
of Publication: |
June, 2008 |
| Price: |
$25.00
|
| Authors: |
Dr V Venegas, Dr F Caleyo, Dr J M Hallen, and Dr T Baudin |
| Abstract: |
THIS PAPER presents the results of a study on the influence of the crystallographic texture on hydrogen-induced cracking (HIC) behaviour using electron-backscatter diffraction (EBSD) and x-ray texture. It is shown that the resistance to HIC of low carbon steels for sour service piping could be improved through crystallographic texture control and grain-boundary engineering. Controlled-rolling schedules can be proposed in order to induce a crystallographic texture dominated fundamentally by the alpha and gamma fibres. Such a texture is expected significantly to decrease the steel susceptibility to HIC by reducing the number of low-resistance paths provided by the cube-oriented grains, and by reducing the probability of crack coalescence through large HIC-induced plastic strain. These textures will also increase the number of high-resistance intergranular crack paths provided by coincidence site lattice (CSL) boundaries and low-angle boundaries between grains with orientation within the gamma texture fibre.
References
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12. S.P.Lynch, 2003. Hydrogen effects on materials behavior and corrosion deformation interaction. Ed. N.R.Moody, A.W.Thompson, R.E.Ricker, G.W.Was, and R.H. Jones. The Mineral, Metals & Materials Society, pp440-466.
13. OIM users manual, 2001. TexSeM Laboratories Inc., pp48-49.
14. NACE, 1997. Standard Test Method TM0284-96. Evaluation of pipeline and pressure vessel steels for resistance to hydrogen-induced cracking. Houston, pp1-10.
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18. Y.P.Li and C.H.Yang, 2006. J. Mechanics Mater. Struct., 1, 1, pp147-162.
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21. A.Haldar and R.K.Ray, 2005. Mater. Sci. Eng. A, A391, 1-2, pp402-407. |
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