A method for topology optimization of structures under harmonic excitations
Title
A method for topology optimization of structures under harmonic excitations
Authors
Xuqi Zhao; Baisheng Wu; Zhengguang Li and Huixiang Zhong
Journal
Structural and Multidisciplinary Optimization, (2018)
Keywords
Topology optimization; Harmonic response; Modal superposition; Modal superposition; Model order reduction
Abstract
This paper deals with topology optimization of large-scale structures with proportional damping subjected to harmonic excitations. A combined method (CM) of modal superposition with model order reduction (MOR) for harmonic response analysis is introduced. In the method, only the modes corresponding to a frequency range which is a little bigger than that of interest are used for modal superposition, the contribution of unknown higher modes is complemented by a MOR technique. Objective functions are the integral of dynamic compliance of a structure, and that of displacement amplitude of a certain user-defined degree of freedom in the structure, over a range of interested frequencies. The adjoint variable method is applied to analyze sensitivities of objective functions and the accuracy of the sensitivity analyses can also be ensured by CM. Topology optimization procedure is illustrated by three examples. It is shown that the topology optimization based on CM not only remarkably reduce CPU time, but also ensure accuracy of results.
Link
https://link.springer.com/article/10.1007/s00158-018-1898-2