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摘要:
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为研究变薄拉深工艺中材料流动变形,开发了基于单点积分和粘性阻尼沙漏控制算法相结合的八节点六面体单元的有限元动力显式算法程序。采用粘性沙漏控制算法有效控制了由于单点积分造成的沙漏模式,节省了计算时间。同时,沿厚向划分多层网格、三维的本构关系以及双面接触算法,可以精确获取板料应力应变状态。最后给出了圆筒件的变薄拉深成形模拟实例,通过与实验结果的比较,验证了此实体单元的实用性。
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An 8-node hexahedral element finite element dynamic explicit program,combining one-point integration with viscosity damping hourglass control algorithm,was developed for studying the material flowing deformation in ironing process.Such hourglass control method effectively suppressed the spurious modes activated by reduced integration,and saved too much calculation time.Meanwhile,the multiple layers meshes along thickness direction,3D constitutive law and double sides contact algorithm could accurately describe distribution of stress and strain.Finally,example of ironing process simulation of thick cylinder part shows this solid element valid by comparing with experimental results.
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基金项目:
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国家自然科学基金资助项目(50575080);;
国家科技支撑项目资助(2006BAF01A43)
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作者简介:
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参考文献:
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