期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
ICM method for topology optimization of multimaterial continuum structure with displacement constraint 被引量:12
1
作者 Hong-Ling Ye zong-jie dai +1 位作者 Wei-Wei Wang Yun-Kang Sui 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2019年第3期552-562,共11页
A new topology optimization method is formulated for lightweight design of multimaterial structures, using the independent continuous mapping (ICM) method to minimize the weight with a prescribed nodal displacement co... A new topology optimization method is formulated for lightweight design of multimaterial structures, using the independent continuous mapping (ICM) method to minimize the weight with a prescribed nodal displacement constraint. Two types of independent topological variable are used to identify the presence of elements and select the material for each phase, to realize the interpolations of the element stiffness matrix and total weight. Furthermore, an explicit expression for the optimized formulation is derived, using approximations of the displacement and weight given by first- and second-order Taylor expansions. The optimization problem is thereby transformed into a standard quadratic programming problem that can be solved using a sequential quadratic programming approach. The feasibility and effectiveness of the proposed multimaterial topology optimization method are demonstrated by determining the best load transfer path for four numerical examples. The results reveal that the topologically optimized configuration of the multimaterial structure varies with the material properties, load conditions, and constraint. Firstly, the weight of the optimized multimaterial structure is found to be lower than that composed of a single material. Secondly, under the precondition of a displacement constraint, the weight of the topologically optimized multimaterial structure decreases as the displacement constraint value is increased. Finally, the topologically optimized multimaterial structures differ depending on the elastic modulus of the materials. Besides, the established optimization formulation is more reliable and suitable for use in practical engineering applications with structural performance parameters as constraint. 展开更多
关键词 INDEPENDENT CONTINUOUS MAPPING method Multimaterial TOPOLOGY OPTIMIZATION CONTINUOUS STRUCTURE
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部