多工况下结构拓扑优化设计

TOPOLOGY OPTIMIZATION OF STRUCTURES UNDER MULTIPLE LOADS

  • 摘要: 考虑单元删除和增加对结构应力约束的影响,提出了一种新的多工况下结构的双方向渐进优化方法. 首先,基于在结构孔洞或边界周围附加人工材料的思路,建立了结构优化模型和应力灵敏度公式. 然后, 结合结构应力和应力灵敏度,给出了多工况静力载荷下考虑静应力约束的结构优化准则和算法. 开展了结构仿真设计,结果表明给出的方法是正确和有效的,并具有较好的工程应用价值.

     

    Abstract: The evolutionary structural optimization method has beenunder continuous development since 1992. Recently abi-direction evolutionary structural optimization method is developed whereby materialcan be added and removed. In order to consider the effects of elementremoving or adding on structural stress constraints, in this paper, a newbi-direction evolutionary structural optimization method is proposed forstructures under multiple loads. First, based on an idea that artificialmaterial is added around optimal structural cavities and boundaries, astructural optimization model and a set of stress sensitivity formula arebuilt. Then combining structural stresses and its sensitivities, a set ofcriteria, for adding and removing finite elements for the topologyoptimization problem of structures under multiple loads, is established, and a kindof new topology optimization procedure is obtained. Several simulationexamples show that the proposed method is valid and effective forstructural topology optimization.

     

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