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热-机械载荷下厚壁圆筒自增强压力优化分析 被引量:4

Investigation on Autofrettage of Thick Cylinder under Internal Pressure and Thermal Load
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摘要 理论上推导了厚壁圆筒在内压及热载荷共同作用下的最佳自增强压力,并基于ANSYS的优化分析结果对理论解进行了验证。结果表明最佳自增强压力的理论解与数值解一致,最大误差不超过1%;另外,不考虑热载荷进行自增强后,会增大工作状态下厚壁圆筒内外壁应力差,降低结构的疲劳强度;工程上可根据本文解析解进行自增强处理,以提高厚壁圆筒的承载能力。 The optimum autofrettage pressure Of thick - walled cylinders under thermo - mechanical load- ings was analyzed. The theoretical solutions were compared with those numerical results obtained by the optimization analysis based on ANSYS. The results indicated that the analytic solutions of the optimum au- tofrettage pressure are in good agreement with the numerical solutions and the maximum error is less than 1%. Moreover,without considering the effect of thermal load,autofrettage may increase the difference of the equivalent stress between the inner and outer wall, which decreases the fatigue strength of thick cylin- ders. The analytic solution of the optimum autofrettage pressure can be used for engineering designs to im- prove the load -carrying capacity of thick cylinders.
作者 郑小涛 王彪 喻九阳 彭常飞 王明伍
机构地区 武汉工程大学机电工程学院
出处 《压力容器》 2012年第9期24-27,6,共5页 Pressure Vessel Technology
基金 国家自然科学基金项目(50976080) 武汉工程大学科学研究基金项目(14125061)
关键词 厚壁圆筒 自增强 疲劳 ANSYS thick cylinder autofrettage fatigue ANSYS
分类号 TH123 [机械工程—机械设计及理论] TQ051.501 [化学工程]
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参考文献7

  • 1ZHU Ruilin,YANG Jinlai. Autofrettage of Thick Cylin- ders [ J ]. International Journal of Pressure Vessels and Piping, 1998,75 (6) :443 - 446.
  • 2Hojjati M H, Hassani A. Theoretical and Finite- ele- ment Modeling of Autofrettage Process in Strain - hard- ening Thick - walled Cylinders [ J ]. International Jour- nal of Pressure Vessels and Piping, 2007,84 ( 5 ) : 310 -319.
  • 3GH Majzoobi, GH Farrahi. A Finite Element Simul - ation and an Experimental Study of Autofrettage for Strain Hardened Thick - walled Cylinders [ J ]. Materi- als Science and Engineering: A, 2003,359 ( 1 - 2 ) : 326 - 331.
  • 4Zheng XT, Xuan FZ. Autofrettage and Shakedown A- nalysis of Strain - Hardening Cylinders under Thermo - Mechanical Loadings [ J ]. Journal of Strain Analysis Engineering and Design, 2011,46 ( 1 ) :45 - 55.
  • 5郑小涛,轩福贞.热—机载荷下厚壁圆筒自增强压力与安全性分析[J].机械工程学报,2010,46(16):156-161. 被引量:20
  • 6RB Hetnarski, MR Eslami. Thermal Stresses - Ad- vanced Theory and Applications, Solid Mechanics and its Applications [ M ]. Springer,2009.
  • 7朱金花,秦宗川,徐鹏.在役自增强反应管残余应力衰减规律及影响[J].压力容器,2011,28(9):7-9. 被引量:8

二级参考文献21

  • 1王志群,查子初,朱务学.不同自增强度厚壁筒的外表面临界裂纹深度和疲劳寿命[J].石油化工设备技术,1989,10(2):2-7. 被引量:1
  • 2潘秉智,朱瑞东,杜秀菊,黄小平,张同达,南炳极,薜青利,陈风山.在役自增强反应管残余应力松弛规律实验研究[J].压力容器,1994,11(5):43-51. 被引量:7
  • 3ZHU Ruilin, YANG Jinlai. Autofrettage of thick cylinders[J]. International Journal of Pressure Vessels and Piping, 1998, 75(6): 443-446.
  • 4HOJJATI M H, HASSANI A. Theoretical and finite element modeling of autofi'ettage process in strain hardening thick-walled cylinders[J]. International Journal of Pressure Vessels and Piping, 2007, 84 (5): 310-319.
  • 5MAJZOOBI G H, FARRAHI G H. A finite element simulation and an experimental study of autofrettage for strain hardened thick-walled cylinders[J]. Materials Science and Engineering, 2003, 359(1-2): 326-331.
  • 6KANDIL A. Analysis of thick-walled cylindrical pressure vessels under the effect of cyclic internal pressure and cyclic temperature[J]. International Journal of Mechanical Science, 1996, 12 (38): 1 319-1 332.
  • 7KARGARNOVIN M H, ZAREI A R, DARIJANI H. Wall thickness optimization of thick-walled spherical vessel using thermo-elasto-plastic concept[J]. International Journal of Pressure Vessels and Piping, 2005, 82. 379-385.
  • 8REZAI Z A. Design of thick-walled vessels under high pressure and elevated temperature using elasto-plastic analysis[D]. Tehran: Sharif University of Technology,1998.
  • 9HETNARSKI R B, ESLAMI M R. Thermal stressesadvanced theory and applications, solid mechanics and its applications[M]. Netherlands: Springer, 2009.
  • 10BREE J. Plastic deformation of a closed tube due to interaction of pressure stresses and cyclic thermal stresses[J]. Int. J. Mech. Sci., 1989, 31(11-12): 865-892.

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压力容器
2012年 第9期

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