Lightweight Optimization Design of Subframe Structure Based on Sensitivity Analysis

2026-99-1639

To be published on 07/24/2026

Authors
Abstract
Content
In order to meet the needs of national energy conservation and environmental protection policies, a typical chassis structure lightweight method based on sensitivity analysis of 13 strength conditions was proposed. Firstly, the finite element model of the subframe of a certain model is established, and the impact strength and static strength of the subframe structure are analyzed by the finite element method. Secondly, the sensitivity analysis of 13 strength conditions was carried out for the 12 main sheet thicknesses in the finite element model. Based on the results of the sensitivity analysis, the plate thickness of the components that is conducive to lightweight and has little impact on the 13 strength conditions of the subframe was selected as the design variable. The size optimization was carried out with the goal of minimizing the mass of the subframe and the constraint that the maximum Von Mises stress of the unit, where each material is located, did not exceed the yield strength of the material. The optimization results show that the performance of the subframe under 13 strength conditions meets the requirements of the index, and the weight of the subframe is reduced by 1.37 kg / 9.6%.
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Citation
Jing, M., Jia, Z., Zhang, H., Liu, M., et al., "Lightweight Optimization Design of Subframe Structure Based on Sensitivity Analysis," 2025 International Conference on Solid Mechanics and Materials (ICSMM 2025), Hengyang, China, August 15, 2025, .
Additional Details
Publisher
Published
To be published on Jul 24, 2026
Product Code
2026-99-1639
Content Type
Technical Paper
Language
English