摘要
使用ANSYS9.0对某具有大开孔结构的压力容器进行了三维建模,采用SHELL181壳单元,使用智能网格划分方式划分网格。提出了"无补强"、"补强圈补强"和"整体补强"三种结构方案,分别进行有限元分析,得到了位移云图和应力云图。结果表明,"补强圈补强"使最大位移量下降12.6%,最大等效应力下降13.8%,"整体补强"使最大位移量下降31.5%,最大等效应力下降20.1%,两种补强方案均能满足强度要求。最后,从经济性考虑,优先选用"补强圈补强"方案。
The three-dimensional model of a pressure vessel with large nozzle-to-cylinder diameter ratio structure is built in ANSYS9.0,using SHELL181 element and smart meshing method.The displacement and mises stress nephograms of three structure schemes:"no reinforcement"," reinforcing ring reinforcement" and "overall reinforcement",are obtained by employing FEA.Resuits show that the Max displacement decrease by 12.6%,the Max mises stress decrease by 13.8% in "reinforcement ring reinforcement",and the Max displacement decrease by 31.5%,the Max mises stress decrease by 20.1% in "reinforcing the whole",compared with "no reinforcement" scheme.Finally,from economic considerations,"reinforcing ring reinforcement" scheme is preferred.
出处
《机械制造与自动化》
2013年第6期104-106,117,共4页
Machine Building & Automation
关键词
开孔补强
大开孔
有限元
壳单元
opening reinforcement
large opening
FEA
shell element
