Sizing and Topology Optimization of a Chassis Frame

Recent Advances in Solids and Structures Pub Date : 2000-11-05 DOI:10.1115/imece2000-1266
M. Krishna, Andrew Simboli
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Abstract

The application of sizing and topology optimization to a complete chassis frame has been undertaken to improve its performance within mass/weight constraints. The static frame stiffness (vertical bending and torsion), the first four modal frequencies and point mobility numbers were targeted for improvement. First, sizing optimization was undertaken to meet frame targets. The gage thicknesses of a number of different components, were allowed to be varied. This resulted in an increase in frame weight. Later topology optimization was undertaken to recommend the area where weight can be taken off without affecting the performance. An MSC NASTRAN optimizer was used for all the analyses.
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机箱机架尺寸与拓扑优化
对一个完整的底盘框架进行了尺寸和拓扑优化的应用,以提高其在质量/重量限制下的性能。针对静框架刚度(垂直弯曲和扭转)、前4个模态频率和点迁移次数进行了改进。首先,进行尺寸优化,以满足帧目标。许多不同部件的量规厚度可以改变。这导致了车架重量的增加。后来进行了拓扑优化,以推荐可以在不影响性能的情况下减轻重量的区域。所有分析均使用MSC NASTRAN优化器。
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Recent Advances in Solids and Structures
Recent Advances in Solids and Structures
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