基于频率目标拓扑优化的油箱支架轻量化设计

2018 6th International Conference on Mechanical, Automotive and Materials Engineering (CMAME) Pub Date : 2018-08-01 DOI:10.1109/CMAME.2018.8592348

M. Tahir, Hou Zhichao, Wang Shuyu

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引用次数: 0

摘要

提出了一种用于油箱试验台轻量化设计的拓扑优化方法。案例研究是一个具有大自由度和频率目标模型的优化问题。考虑到操作环境、载荷和支架的可能形状，体积被设置为优化的约束条件，而最大化基频是优化的目标。选择特定的材料插补方案来实现优化，其中包括多个直接和间接设计目标。在有限元分析的基础上，对传统设计和拓扑优化的结构进行了比较。结果表明，拓扑优化后的结构具有高于180 Hz的基频，且结构相对较轻。

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Lightweight Design of a Fuel Tank Stand by Means of Topology Optimization with Frequency Target

This paper presents a topological optimization for lightweight design of an experimental stand for a fuel tank. The case study is an optimization problem with a model of massive degrees of freedom and frequency target. Taking the operational environment, loads and possible shape of the supporting stand into consideration, volume is set to be a constraint in optimization whereas maximizing fundamental frequency is the objective. A specific material interpolation scheme is selected to achieve the optimization, where multiple direct and indirect design objectives are included. Structures derived from a traditional design and topology optimization are compared based on finite element analysis. Results show that the topologically optimized structure has a higher fundamental frequency than 180 Hz while keeping structure relatively light.

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2018 6th International Conference on Mechanical, Automotive and Materials Engineering (CMAME)

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