板壳结构的应力约束拓扑优化设计

TOPOLOGICAL OPTIMIZATION OF PLATE AND SHELL STRUCTURE WITH STRESS CONSTRAINTS

  • 摘要: 应用ICM 方法求解应力约束板壳结构拓扑优化问题,建立了寻求应力约束下结构重量极小化,每个设计变量控制多个单元的板壳结构拓扑优化近似显式的ICM 模型. 依据畸变能理论,将应力约束转化为畸变能约束,减少了约束数目. 采用精确对偶映射下的序列二次规划算法进行求解. 以MSC.Patran 及MSC.Nastran 软件作为二次开发平台,应用PCL 语言实现本文算法. 算例对于设计变量数等于单元数时的情况进行了计算,表明该方法有效可行.

     

    Abstract: ICM method is applied to slove topological optimization of plate and shell structure with stress constraints. An approximately explicit topological ICM optimization model of plate and shell structure with each design variable controlling multiple elements is established to minimize the weight with stress constraints. Stress constraints are transformed into structural distortional energy constraints in terms of the Misses strength theory which reduces the number of the stress constraints. The model is solved by SQP (sequential quadratic programming) algorithm using exact dual mapping. MSC/Patran & Nastran software is taken as a secondary development platform. The algorithm in this paper is implemented on by PCL language. Examples for the design variables equal to the number of cells were calculated, indicating that the method is effective and feasible.

     

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