循环载荷非线性材料的比例拓扑优化研究

Suphanut Kongwat, H. Hasegawa
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引用次数: 0

摘要

本研究提出了一种更新拓扑优化过程中元素密度值的比例技术。将拓扑优化的全应力设计准则与单因素结合成比例函数,更新密度值。将内能密度的最大化问题定义为带应力约束的目标函数。将分析过程中荷载值不恒定且随时间变化的循环荷载应用于进行动力分析的结构。在材料性能方面,考虑了组织应力应变关系的各向同性和运动硬化塑性特性。最后,通过数值算例进行了计算,得到了最终的布局,并与静态载荷作用下根据材料线性特性得到的优化设计结果进行了对比。
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A Study on Proportional Topology Optimization for Nonlinearities Material with Cyclic Load
This research proposes a proportional technique for updating an element density value for the topology optimization process. Fully stress design criterion for the topology optimization was combined with being one factor into the proportional function for updating the density value. An internal energy density was focused on the maximization problem and defined to the objective function with stress constraint. The cyclic load which the load value is not constant and vary by the time during the analysis process was applied to the structure that becomes dynamic analysis. For material property, the characteristic of isotropic and kinematic hardening plasticity was considered for the relationship between stress and strain of the structure. Finally, numerical examples were investigated to acquire the final layout and compared to the optimum design which obtained from the linear material properties under the static load.
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