[1]姚安林, 徐涛龙, 李星,等. 基于试验和数值模拟确定挖掘机具作用下埋地输气管道的动载荷[J]. 振动与冲击, 2014, 33(17):39-46.
YAO Anlin, XU Taolong, LI Xing, et al. Determining dynamic load on a buried gas pipeline under mining machinery actions based on test and numerical simulation[J]. Journal of Vibration and Shock,2014,33( 17):39-46.
[2]European Gas Pipeline Incident Data Group (EGIG). 10th Report of the european gas pipeline incident data group[R]. European Gas Pipeline Incident Data Group, 2018.
[3]王婷, 郑洪龙, 宋汉成,等. 城市燃气管网的完整性管理[J].油气储运, 2012, 31(3):184-187.
WANG Ting, ZHENG Honglong,SONG Hancheng,et al. Integrity management of urban gas pipeline network[J]. Gas Storage and Transportation,2012,31(3) : 184-187.
[4]BROOKER D C. Numerical modelling of pipeline puncture under excavator loading. Part I: Development and validation of a finite element material failure model for puncture simulation[J]. International Journal of Pressure Vessels and Piping,2003,80(10): 715-725.
[5]BROOKER D C. Numerical modelling of pipeline puncture under excavator loading. Part II: Parametric study [J]. International Journal of Pressure Vessels and Piping,2003,80(10): 727-735.
[6]ROOVERS P, STEINER M,ZAREA M. EPRG recommendations for the assessment of the tolerance and resistance of pipelines to external damage[C]//11th PRCI/EPRG Joint Technical Meeting. Arlington Virginia, April 7-11, 1997:18-21.
[7] CHAMPAVERE R,DEZOBRY J, PHILIBERT C,et al.The pipe aggression rig: A comprehensive means for studying pipe resistance to third party damage[C]//11th PRCI/EPRG Joint Technical Meeting. Arlington Virginia, April 7-11, 1997:22-25.
[8]ALEXANDER C R,KIEFNER J F, FOWLER J R. Repair of dents combined with gouges considering cyclic pressure loading[C]// 9th Annual International Energy Week Conference and Exhibition. Houston, Texas, January 1997:57-60.
[9]Battelle Columbus Laboratories. Line pipe resistance to outside force[C]//American Gas Association Pipeline Research Committee. October 12, 1994:79-83.
[10]YAO Anlin, XU Taolong, ZENG Xiangguo. Numerical analyses of the stress and limiting load for buried gas pipelines under excavation machine impact[J]. Journal of Pipeline Systems Engineering and Practice,2015,6(3):1-7.
[11]徐涛龙, 姚安林, 曾祥国,等. 埋地钢质输气管道动态挖掘响应的试验研究及模拟分析[J]. 振动与冲击, 2017, 36(1):230-239.
XU Taolong, YAO Anlin,ZENG Xiangguo, et al. Dynamic response of buried steel gas pipeline under excavator loading by testing and modeling[J]. Journal of Vibration and Shock, 2017, 36(1):230-239.
[12]徐涛龙, 姚安林, 李又绿,等. 基于全尺寸试验的挖掘机具作用埋地输气管道的多体动力学仿真[J]. 工程力学, 2017(b06):300-307.
XU Taolong, YAO Anlin, LI Youlyu, et al. Multi-body dynamic simulation of buried gas pipeline based on full scale test[J]. Engineering mechanics, 2017(b06):300-307.
[13]徐涛龙. 埋地管道强外力作用下变形和失效的实验研究及多尺度分析[D]. 成都:四川大学, 2015.
[14]郑家坤. 基于虚拟样机的挖掘机工作装置的设计与仿真[D]. 成都:西南交通大学, 2008.
[15]同济大学. 单斗液压挖掘机(第二版)[M].北京:中国建筑工业出版社, 1986.
[16]李又绿, 徐文彬, 陈华燕,等. 滚石冲击作用下埋地高压输气管道的可靠性分析[J]. 中国安全生产科学技术, 2012, 8(4):29-33.
LI Youlyu, XU Wenbin, CHEN Huayan, et al. Reliability Analysis of Buried High Pressure Gas Pipeline under the Impact of Rock Fall[J]. Journal of Safety Science and Technology, 2012, 8(4):29-33.
[17]赵璐, 姚安林, 徐涛龙,等. 输气管道机械挖掘穿孔损伤预测模型研究[C]//全国结构工程学术会议. 2016:Ⅲ422-427.