Fracture capacity of modern pipeline girth welds with 3D surface cracks under extreme operating conditions

Chong Tse-Ven Steven; Kumar Shashi Bhushan; Lai Man On; Loh Wai Lam

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Fracture capacity of modern pipeline girth welds with 3D surface cracks under extreme operating conditions

机译：在极端运行条件下具有3D表面裂纹的现代管道环缝焊缝的断裂能力

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Finite element method was used to document the effects of temperature, environment, crack location and weld strength mis-match on the fracture capacity of modern pipeline girth welds. The results demonstrated a marginal reduction (>0.83 times) in the crack driving force for pipelines operating in a sour environment or at elevated temperatures or for cracks located in the weld centerline than at the fusion line. The crack driving force is lower for under-matching than over-matching welds. Furthermore, the numerical method was compared with analytical method as per BS7910 and the results showed that the latter was more conservative for deeper cracks (a/t > 0.4). (C) 2015 Elsevier Ltd. All rights reserved.

机译：使用有限元方法来记录温度，环境，裂纹位置和焊接强度不匹配对现代管道环缝焊缝的断裂能力的影响。结果表明，在酸性环境中或高温下运行的管道或位于焊接中心线的裂纹（而不是熔合线）的裂纹驱动力略有降低（> 0.83倍）。对于不匹配的焊缝，裂纹驱动力要比过度匹配的焊缝低。此外，将数值方法与根据BS7910的分析方法进行比较，结果表明，后者对于较深的裂纹更为保守（a / t> 0.4）。（C）2015 Elsevier Ltd.保留所有权利。

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来源
《Engineering Fracture Mechanics》 |2015年第null期|共22页
作者
Chong Tse-Ven Steven; Kumar Shashi Bhushan; Lai Man On; Loh Wai Lam;
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正文语种 eng
中图分类工程力学;
关键词
High pressure/high temperature (HP/HT); Sour service; Girth weld imperfections; CRA clad; Finite element method;

机译：高压/高温（HP / HT）;酸服务;环焊缝缺陷;CRA包覆;有限元法;

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1. Fracture capacity of modern pipeline girth welds with 3D surface cracks under extreme operating conditions [J] . Chong Tse-Ven Steven, Kumar Shashi Bhushan, Lai Man On, Engineering Fracture Mechanics . 2015,第Null期

机译：在极端运行条件下具有3D表面裂纹的现代管道环缝焊缝的断裂能力
2. Fracture analysis of girth welded pipelines with 3D embedded cracks subjected to biaxial loading conditions [J] . Dake Yi, Zhong Min Xiao, Sridhar Idapalapati Engineering Fracture Mechanics . 2012,第Null期

机译：双轴载荷条件下具有3D嵌入裂纹的环缝焊接管道的断裂分析
3. Elastic-plastic fracture analyses for pipeline girth welds with 3D semi-elliptical surface cracks subjected to large plastic bending [J] . Y. M. Zhang, D. K. Yi, Z. M. Xiao, International Journal of Pressure Vessels and Piping . 2013,第Null期

机译：承受大塑性弯曲的3D半椭圆形表面裂纹的管道环缝焊缝的弹塑性断裂分析
4. CRACK GROWTH TESTING OF AN X80 PIPELINE GIRTH WELD USING SECT) AND SE(B) FRACTURE SPECIMENS [C] . Leonardo L. S. Mathias, Diego F. S. Burgos, Gustavo H. B. Donate, ASME international conference on ocean, offshore and arctic engineering . 2012

机译：使用SECT和SE（B）断裂标本对X80管道周长的裂纹增长进行测试
5. Relating gasoline production and coke formation to feedstock composition and operating conditions in fluid catalytic cracking. [D] . Bamufleh, Hisham Saeed. 2002

机译：在流化催化裂化中将汽油生产和焦炭形成与原料组成和操作条件联系起来。
6. Literature Review: Theory and Application of In-Line Inspection Technologies for Oil and Gas Pipeline Girth Weld Defection [O] . Qingshan Feng, Rui Li, Baohua Nie, 2017

机译：文献综述：油气管道环缝焊缝在线检测技术的理论与应用
7. Study on ductile crack initiation limit from notch root of pipeline girth welded joints with strength mis-match [O] . Hiroyuki MOTOHASHI, Hiroshi YATABE 2010

机译：与强度误差焊接接头槽根根裂缝启动限制研究
8. Consideration of Fracture Mechanics Analysis and Defects Dimension Measurement Assessment for the Trans-Alaska Oil Pipeline Girth Welds. Volume II. [R] . berger,harold smith,john h. 1977

机译：跨阿拉斯加输油管道环焊缝断裂力学分析与缺陷尺寸测量评价的思考。第二卷。

Fracture capacity of modern pipeline girth welds with 3D surface cracks under extreme operating conditions

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