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压力容器大开孔补强结构强度的有限元分析 被引量:1

Finite Element Analysis of the Reinforcement Structure Strength of Pressure Vessel with Large Opening
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摘要 运用压力面积法和有限单元法计算分析了一模型容器筒体上受内压的大开孔补强结构 ,用极限分析法求出其极限载荷和设计载荷 ,并用分析设计法进行了验证。通过比较和分析可知 ,压力面积法由于没有考虑弯曲应力的限制 ,用于大开孔补强设计有时是不可靠的 ,在工程实践中压力容器大开孔补强结构应有较大的安全系数 。 The reinforcement structure strength of a model pressure cylinder with large opening subject to internal pressure is calculated using two large opening reinforcement methods including pressure area method (PAM) and finite element method (FEM).Its limit load and design load are analyzed by limit analysis method, its strength subject to internal design load pressure is checked using analysis design.By comparing and analyzing the model pressure cylinder with a nozzle subject to internal pressure by using these two methods respectively, sometimes, PAM is unreliable because of neglecting bending stress.The reinforcement structure strength of pressure vessel with large opening needs a conservative safe coefficient on engineering practice.Meanwhile, FEM are available and reliable for pressure vessel with large opening.
作者 田华
机构地区 江苏工业学院
出处 《轻工机械》 CAS 北大核心 2004年第3期37-39,共3页 Light Industry Machinery
关键词 大开孔 补强结构 压力容器 压力面积法 分析设计 补强设计 弯曲应力 并用 筒体 内压 large opening reinforcement pressure area method finite element analysis limit load
分类号 TS190.4 [轻工技术与工程—纺织化学与染整工程] TH49 [轻工技术与工程—纺织科学与工程]
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  • 1Save M. Experimental verification of plastic limit analysis of torispherical and torieonical heads, Pressure Vessel and Piping, Designand .Analvsis 1, ?LSME, 1972, 382 - 416. 被引量:1
  • 2Townley C H A, et al. Elastic - plastic computation as a basis fordesign charts for torispherical pressure vessel ends. Proc. I. Mech.E.. 1971, 185(63) : 869-877. 被引量:1
  • 3Schroeder, J., A plastic modulus approach to experimental limit loads, ASME Paper, No. 80 - C2/PVP - 1. 1980. 被引量:1
  • 4Demir H H, Drucker D C. An experimental study of cylindricalshells under ring loading, Progress in Applied Mechanics (Wager.Anniversary Volume), MacMillan, New York, 1963, 205-220. 被引量:1
  • 5Kirkwood M G, et al. Finite element stress analysis of an equal diameter branch pipe intersection subjected to out - of- plane and twisting moments, J. Strain .Analysis. 1986.21(1) : 171 - 183. 被引量:1
  • 6Gerdoen J C. A critical evaluation of plastic behavior data and a united definition of plastic loads for pressure components, WRC Bulletin 254, 1979.1 -64. 被引量:1
  • 7Schroeder J. Experimental limit couples for branch moment loads on 4 in. ANSI B16.9 tees, WRC Bulletin 304, 1985. 被引量:1
  • 8API 579 D Becommended practice for fitness - for - service, Issue 6. 1997. 被引量:1
  • 9淡勇.VCM回收液分离器大开孔结构的应力分析和强度评定[J].化工机械,1997,24(6):328-333. 被引量:11
  • 10章为民,陆明万,张如一.确定实际极限载荷的零曲率准则[J].固体力学学报,1989,10(2):152-160. 被引量:48

共引文献44

同被引文献1

  • 1JB 4732-1995.《钢制压力容器—分析设计标准》及标准释义[S].全国压力容器标准化技术委员会,1995. 被引量:1

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轻工机械
2004年 第3期

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