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施工阶段轴向单纯凹痕管道韧性损伤变化分析 被引量:2

DUCTILE DAMAGE CHANGE ANALYSIS OF AXIAL SIMPLE DENTED PIPELINE IN CONSTRUCTION STAGE
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摘要 机械损伤会造成管道的即刻或者延迟失效,而凹痕是机械损伤的主要表现形式。针对施工阶段造成的轴向单纯凹痕,基于Oyane韧性断裂准则,利用有限元法进行模拟研究。分析凹痕管道在不同凹痕尺寸、管道尺寸和管道内压的情况下,管道韧性损伤程度的变化情况。得到凹痕深度与管道韧性损伤程度的关系,为施工阶段造成轴向单纯凹痕的油气管道的安全设计提供一定的理论指导依据。 Mechanical damage can cause immediate or delayed failure of the pipe. The dent is the main form of mechanical damage. According to the Oyane ductile fracture criterion, the finite element method was used to simulate the axial simple dent caused by the construction stage. Analyzed the change of pipeline ductile damage degree in different pit sizes, pipe sizes and pipe pressures, the relationship between the dents depth and the ductile damage degree is obtained, which provides the theoretical basis for the safe design of the oil and gas pipelines with axial indentation during the construction stage.
作者 伍颖 王乐 谢彦平 唐娜 WU Ying;WANG Le;XIE YanPing;TANG Na(Department of Civil Engineering and Architecture,Southwest Petroleum University,Chengdu 610500,China;Kuche oil and Gas Development Department of Tarim Oilfield Branch,Tarim 841000,China)
机构地区 西南石油大学土木工程与建筑学院 塔里木油田分公司库车油气开发部
出处 《机械强度》 CAS CSCD 北大核心 2019年第2期436-441,共6页 Journal of Mechanical Strength
基金 国家自然科学基金项目(50974105) 国家安全生产监督管理总局(Sichuan-0016-2016AQ) 西南石油大学启航计划(2015QHZ024)资助~~
关键词 施工阶段 轴向单纯凹痕 Oyane韧性断裂准则 凹痕深度 韧性损伤程度 The construction stage Axial simple dent Oyane ductile fracture criterion Dent depth Toughness damage degree
分类号 TE83 [石油与天然气工程—油气储运工程] TG113.25 [金属学及工艺—物理冶金]
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  • 1WU Ying, LIU Wu, WU Huang, et al. Peak cycle stress analysis of plain dent on pipeline based on FE calculation [ J ]. Journal of Vibroengineering, 2014,16 : 1268-1275.
  • 2CSA Z662. 1- 11. Commentary on CSA standard Z662 -03 Oil and gas pipeline systems [ S ].
  • 3Allouti M, Schmit C, Pluvinage G. Assessment of a gouge and dent defect in a pipeline by a combined criterion [ J ]. Engineering Failure Analysis, 2014,36 : 1-13.
  • 4Yaghi A H, Hyde T H, Becket A A, et al. Finite dement simulation of residual stresses induced by the dissimilar wdding of P92 steel pipe with weld metal IN625. International Journal of Pressure Vessels and Piping. 2013, 1 11 : 173-186.
  • 5Allouti M, Schmit C, Pluvinage G, Gilgert J, Hariri S. Study of the influence of dent depth on the critical pressure of pipeline. Engineering Failure Analysis, 2012,21:40-51.
  • 6Jovicic G, Nikolic R, Zivkovie M, et 81. An estimation of the high- pressure pipe residual life [ J ]. SciVerse ScienceDirect, 2013,13 : 36-44.
  • 7Vazquez J, Navarre C, Dominguez J. A model to predict fretting fatigue life including residual stresses [ J]. Theoretical and Applied Fracture Mechanics ,2014,73 : 144-151.
  • 8Cosham A, Kirkwood M. Best practice in pipeline defect assessment [ C]. Calgray, Alberta: The 3rd Intemational Pipeline Conference, 2000 : 1-12.
  • 9焦中良,帅健.含凹陷管道的完整性评价[J].西南石油大学学报(自然科学版),2011,33(4):157-164. 被引量:48
  • 10包名,尚德广,陈宏.一种新的随机多轴疲劳寿命预测方法[J].机械强度,2012,34(5):737-743. 被引量:12

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机械强度
2019年 第2期

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