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摘要: 推导厚壁圆筒在内压及热梯度载荷作用下的最佳自增强压力,并基于ANSYS优化分析结果对理论解进行验证。同时进一步探讨循环热机载荷下自增强对厚壁圆筒安定行为的影响。结果表明,不考虑热载荷时自增强处理会增大工作状态下圆筒内外壁应力差,从而降低结构的疲劳强度;当量纲一温度tn0.75时,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%,而当0.75关键词: ANSYS, 安定性, 厚壁圆筒, 自增强Abstract: The optimum autofrettage pressure of the thick wall cylinder under thermo-mechanical loadings is analyzed. The theoretical solutions are compared with those numerical results obtained by optimization analysis based on ANSYS. Furthermore, the effect of autofrettage on shakedown behavior of a thick-walled cylinder under constant internal pressure and cyclic thermal load is also investigated. The results indicate that the theoretical solutions of the optimum autofrettage pressure are in good agreement with the numerical solutions and the maximum error is not greater than 1% when normalized temperature tn is 0.75, while autofrettage processing is not necessary when tn is 0.75 and 1.00 due to the small equivalent stress difference between the inner and outer walls. Moreover, without considering the effect of thermal load, autofrettage may increase the difference of the equivalent stress between the inner and outer walls, which decreases the fatigue strength of the thick cylinder subjected to thermo-mechanical loadings. In addition, autofrettage has little influence on shakedown behavior under cyclic thermo-mechanical loadings.Key words: ANSYS, Autofrettage, Shakedown, Thick cylinder中图分类号: TB333引用本文郑小涛;轩福贞. 热—机载荷下厚壁圆筒自增强压力与安全性分析[J]. , 2010, 46(16): 156-161.ZHENG Xiaotao;XUAN Fuzhen. Investigation on Autofrettage and Safety of the Thick-walled Cylinder under Thermo-mechanical Loadings[J]. , 2010, 46(16): 156-161.使用本文0 / / 推荐导出引用管理器 EndNote|Reference Manager|ProCite|BibTeX|RefWorks链接本文:http://www.cjmenet.com.cn/CN/ http://www.cjmenet.com.cn/CN/Y2010/V46/I16/156
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