基于应变-能量密度和拓扑优化方法的前钢轨耐撞性设计

2010 Third International Joint Conference on Computational Science and Optimization Pub Date : 2010-05-28 DOI:10.1109/CSO.2010.92

Tao Xu, Yiwen Li, Qiang Li, Liang Hao, Wenjun Song

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引用次数: 2

摘要

前钢轨结构必须具有良好的变形调节性能和良好的吸能能力，对汽车正面耐撞性有着深远的影响。本工作旨在探索合适的材料分布，将其弯曲模式改善为轴向挤压模式。针对非线性有限元分析获取灵敏度计算量大的问题，提出了等效静载条件下的刚度分布计算方法——应变能密度法。研究了考虑不同破碎特性的拓扑优化方法。从而合理分布配筋板和触发器的位置。结果证明了所提出的方法和流程在汽车车身结构耐撞性设计中的能力和潜力。

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Crashworthiness Design of Frontal Rail Using Strain-Energy-Density and Topology Optimization Approach

The frontal rail structure, which profoundly affect automotive frontal crashworthiness, must have an adjust deformation behavior and excellent energy absorbing ability. This work aims to explore the proper material distribution to improve its bending mode to axial crush mode. Since the nonlinear finite element analysis to obtain sensitivities is high computational complexity, the strain-energy-density (SED) method is put forward to calculate the stiffness distribution under equivalent static loads condition. Topology optimization approach is also investigated by considering different crush characteristics. Thus, the locations of the reinforcement plates and triggers can be distributed reasonably. The results demonstrate the capability and potential of the approach and process proposed in the crashworthiness design of auto body structure.

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2010 Third International Joint Conference on Computational Science and Optimization

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