Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions
Steel pipelines used for oil and gas transportation are joined by girth welding and welds may contain weld imperfections/defects such as lack of fusion, under-cuts, porosity, slag inclusion etc. of certain height and length at certain location along the longitudinal direction of the weld. During the...
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sg-ntu-dr.10356-1023572020-03-07T13:22:20Z Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions Yi, Dake. Xiao, Zhong Min. Idapalapati, Sridhar. Kumar, Shashi Bhushan. School of Mechanical and Aerospace Engineering Steel pipelines used for oil and gas transportation are joined by girth welding and welds may contain weld imperfections/defects such as lack of fusion, under-cuts, porosity, slag inclusion etc. of certain height and length at certain location along the longitudinal direction of the weld. During the installation and operation, these pipelines are exposed to large plastic deformation. Fracture assessment procedures: BS7910:2005 [1] or R6 [2], are not suitable for such plastic strains (3%). The evolution of crack tip opening displacement (CTOD) of the pipeline with elliptical embedded crack in a girth weld is investigated under biaxial loading conditions using a three dimensional elastic–plastic finite element method. Based on the results, empirical formulas depicting relationship between the CTOD and the global strain are proposed. 2013-07-11T03:11:16Z 2019-12-06T20:53:53Z 2013-07-11T03:11:16Z 2019-12-06T20:53:53Z 2012 2012 Journal Article Yi, D., Xiao, Z. M., Idapalapati, S., Kumar, S. B. (2012). Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions. Engineering Fracture Mechanics, 96, 570-587. https://hdl.handle.net/10356/102357 http://hdl.handle.net/10220/11175 10.1016/j.engfracmech.2012.09.005 168093 en Engineering fracture mechanics © 2012 Elsevier Ltd. |
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Steel pipelines used for oil and gas transportation are joined by girth welding and welds may contain weld imperfections/defects such as lack of fusion, under-cuts, porosity, slag inclusion etc. of certain height and length at certain location along the longitudinal direction of the weld. During the installation and operation, these pipelines are exposed to large plastic deformation. Fracture assessment procedures: BS7910:2005 [1] or R6 [2], are not suitable for such plastic strains (3%). The evolution of crack tip opening displacement (CTOD) of the pipeline with elliptical embedded crack in a girth weld is investigated under biaxial loading conditions using a three dimensional elastic–plastic finite element method. Based on the results, empirical formulas depicting relationship between the CTOD and the global strain are proposed. |
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School of Mechanical and Aerospace Engineering |
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School of Mechanical and Aerospace Engineering Yi, Dake. Xiao, Zhong Min. Idapalapati, Sridhar. Kumar, Shashi Bhushan. |
| format |
Article |
| author |
Yi, Dake. Xiao, Zhong Min. Idapalapati, Sridhar. Kumar, Shashi Bhushan. |
| spellingShingle |
Yi, Dake. Xiao, Zhong Min. Idapalapati, Sridhar. Kumar, Shashi Bhushan. Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions |
| author_sort |
Yi, Dake. |
| title |
Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions |
| title_short |
Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions |
| title_full |
Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions |
| title_fullStr |
Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions |
| title_full_unstemmed |
Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions |
| title_sort |
fracture analysis of girth welded pipelines with 3d embedded cracks subjected to biaxial loading conditions |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/102357 http://hdl.handle.net/10220/11175 |
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1681040319765807104 |