Application of Topology and Finite Element Shape Optimizations in the Design of a Pusher for a Crimp Machine

Recent Advances in Solids and Structures Pub Date : 1998-11-15 DOI:10.1115/imece1998-0896
M. Krishna
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Abstract

Topology and shape optimization techniques have been applied in combination to design a pusher for a crimp machine. Preliminary topology optimization directed us to do sizing optimization. Topology optimization was again applied to a plate version of the pusher to find out the best form of cut out to reduce its weight further. Shape optimization was then used to find the optimum size of this cut out. The results were verified with solid finite element analysis. In conclusion, both weight and stresses have been brought down drastically. Thus the concept of using both topology and shape optimization has been proved to work successfully with pusher design.
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拓扑优化与有限元形状优化在卷边机推杆设计中的应用
将拓扑优化技术与形状优化技术相结合,设计了一种用于卷边机的推杆。初步的拓扑优化指导我们进行大小优化。拓扑优化再次应用于板版推杆,以找出最佳的切割形式,以进一步减轻其重量。然后使用形状优化来找到该切割的最佳尺寸。通过实体有限元分析验证了计算结果。总之,体重和压力都大大降低了。因此,拓扑优化和形状优化的概念在推杆设计中被证明是成功的。
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Recent Advances in Solids and Structures
Recent Advances in Solids and Structures
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