Multi-objective crashworthiness optimization of energy-absorbing box with gradient lattice structure
2023; Elsevier BV; Volume: 121; Linguagem: Inglês
10.1016/j.apm.2023.05.001
ISSN1872-8480
AutoresChong Xie, Dengfeng Wang, Ling Zong, Shuang Wang, Dewen Kong,
Tópico(s)Mechanical Engineering and Vibrations Research
ResumoTo improve the lightweight and crashworthiness of energy-absorbing box, an energy-absorbing box with spatial lattice structure and multi-objective optimization method are proposed. First, a novel single-cell structure is proposed, which is replicated and arranged to form the spatial lattice structure. Then, the mechanical properties of the material are tested by quasi-static and high-speed tensile tests. The finite element model of the spatial lattice structure is established, and the numerical results are verified by the drop weight impact test. Finally, four different types of approximate models are used to fit different responses, and the combination of approximate models with higher accuracy is obtained. And the multi-objective optimization of our model is carried out. The optimal design of our model is obtained based on the grey relational analysis coupling entropy weight method. Compared with the energy-absorbing box with initial lattice, the specific energy absorption of the optimal design of our model is increased from 6.23kJ/kg to 8.91kJ/kg, an increase of 43.0%, and the mass is reduced from 1.1kg to 0.798kg, a reduction of 27.4%. The results show that the optimal design of our model has the advantages of lightweight and energy absorption.
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