Topological gradient in structural optimization under stress and buckling constraints
作者:
Highlights:
• The minimization of the structural mass for mechanical structures under stress and buckling constraints in a topological-gradient framework is proposed.
• An extension of the inverse-iterations algorithm is proposed for buckling analysis, featuring low memory consumption.
• The adjoint method is applied to efficiently compute the constraint gradients.
• Numerical results on mechanical structures, including a real application arising in the aeronautical field, show the effectiveness of the proposed approach.
摘要
•The minimization of the structural mass for mechanical structures under stress and buckling constraints in a topological-gradient framework is proposed.•An extension of the inverse-iterations algorithm is proposed for buckling analysis, featuring low memory consumption.•The adjoint method is applied to efficiently compute the constraint gradients.•Numerical results on mechanical structures, including a real application arising in the aeronautical field, show the effectiveness of the proposed approach.
论文关键词:Topology optimization,Topological gradient,Buckling constraints,Generalized eigenvalue problem
论文评审过程:Received 25 May 2020, Revised 17 January 2021, Accepted 23 January 2021, Available online 10 February 2021, Version of Record 11 July 2021.
论文官网地址:https://doi.org/10.1016/j.amc.2021.126032
