Bi-Directional Evolutionary Topology Optimization with Adaptive Evolutionary Ratio for Nonlinear Structures

Current topology optimization methods for nonlinear continuum structures often suffer from low computational efficiency and limited applicability to complex nonlinear problems. To address these issues, this paper proposes an improved bi-directional evolutionary structural optimization (BESO) method...

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Published in	Chinese journal of mechanical engineering Vol. 38; no. 1; p. 122
Main Authors	Tian, Linli, Zhang, Wenhua
Format	Journal Article
Language	English
Published	Singapore Springer Nature Singapore 17.07.2025 Springer Nature B.V
Edition	English ed.
Subjects	Advanced Transportation Equipment Algorithms Comparative studies Composite materials Deformation Efficiency Electrical Machines and Networks Electronics and Microelectronics Energy Engineering Engineering Thermodynamics Equilibrium Equilibrium equations Finite element method Geometric nonlinearity Heat and Mass Transfer Heat treating Instrumentation Load Machines Manufacturing Mechanical Engineering Newton-Raphson method Optimization Original Article Power Electronics Processes Theoretical and Applied Mechanics Topology optimization Topology optimization BESO method Adaptive evolutionary ratio Nonlinear
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ISSN	2192-8258 1000-9345 2192-8258
DOI	10.1186/s10033-025-01276-w

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Abstract	Current topology optimization methods for nonlinear continuum structures often suffer from low computational efficiency and limited applicability to complex nonlinear problems. To address these issues, this paper proposes an improved bi-directional evolutionary structural optimization (BESO) method tailored for maximizing stiffness in nonlinear structures. The optimization program is developed in Python and can be combined with Abaqus software to facilitate finite element analysis (FEA). To accelerate the speed of optimization, a novel adaptive evolutionary ratio (ER) strategy based on the BESO method is introduced, with four distinct adaptive ER functions proposed. The Newton-Raphson method is utilized for iteratively solving nonlinear equilibrium equations, and the sensitivity information for updating design variables is derived using the adjoint method. Additionally, this study extends topology optimization to account for both material nonlinearity and geometric nonlinearity, analyzing the effects of various nonlinearities. A series of comparative studies are conducted using benchmark cases to validate the effectiveness of the proposed method. The results show that the BESO method with adaptive ER significantly improves the optimization efficiency. Compared to the BESO method with a fixed ER, the convergence speed of the four adaptive ER BESO methods is increased by 37.3%, 26.7%, 12% and 18.7%, respectively. Given that Abaqus is a powerful FEA platform, this method has the potential to be extended to large-scale engineering structures and to address more complex optimization problems. This research proposes an improved BESO method with novel adaptive ER, which significantly accelerates the optimization process and enables its application to topology optimization of nonlinear structures.
AbstractList	Current topology optimization methods for nonlinear continuum structures often suffer from low computational efficiency and limited applicability to complex nonlinear problems. To address these issues, this paper proposes an improved bi-directional evolutionary structural optimization (BESO) method tailored for maximizing stiffness in nonlinear structures. The optimization program is developed in Python and can be combined with Abaqus software to facilitate finite element analysis (FEA). To accelerate the speed of optimization, a novel adaptive evolutionary ratio (ER) strategy based on the BESO method is introduced, with four distinct adaptive ER functions proposed. The Newton-Raphson method is utilized for iteratively solving nonlinear equilibrium equations, and the sensitivity information for updating design variables is derived using the adjoint method. Additionally, this study extends topology optimization to account for both material nonlinearity and geometric nonlinearity, analyzing the effects of various nonlinearities. A series of comparative studies are conducted using benchmark cases to validate the effectiveness of the proposed method. The results show that the BESO method with adaptive ER significantly improves the optimization efficiency. Compared to the BESO method with a fixed ER, the convergence speed of the four adaptive ER BESO methods is increased by 37.3%, 26.7%, 12% and 18.7%, respectively. Given that Abaqus is a powerful FEA platform, this method has the potential to be extended to large-scale engineering structures and to address more complex optimization problems. This research proposes an improved BESO method with novel adaptive ER, which significantly accelerates the optimization process and enables its application to topology optimization of nonlinear structures.
ArticleNumber	122
Author	Zhang, Wenhua Tian, Linli
Author_xml	– sequence: 1 givenname: Linli orcidid: 0000-0001-6256-3499 surname: Tian fullname: Tian, Linli email: tll@whut.edu.cn organization: Hubei Key Laboratory of Advanced Automotive Components Technology, Wuhan University of Technology, Hubei Collaborative Innovation Center for Automotive Components Technology, Wuhan University of Technology – sequence: 2 givenname: Wenhua surname: Zhang fullname: Zhang, Wenhua organization: Hubei Key Laboratory of Advanced Automotive Components Technology, Wuhan University of Technology, Hubei Collaborative Innovation Center for Automotive Components Technology, Wuhan University of Technology
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Cites_doi	10.1007/s10409-023-23084-x 10.1016/j.cma.2020.112972 10.1007/s00158-021-03152-2 10.1007/s00158-020-02764-4 10.1007/s00158-010-0594-7 10.1016/0045-7825(88)90086-2 10.1016/j.cma.2023.116329 10.1371/journal.pone.0296337 10.1016/j.cma.2021.113731 10.1016/j.cma.2020.113496 10.1007/s10338-021-00229-9 10.1016/j.cma.2023.116119 10.1115/1.4034972 10.1007/s00158-022-03239-4 10.1007/s00158-020-02816-9 10.1007/s00158-023-03590-0 10.1016/j.compstruct.2021.114164 10.1016/j.advengsoft.2015.02.006 10.1016/j.compstruc.2023.107190 10.1016/j.cma.2024.117005 10.1007/s00158-014-1107-x 10.1016/j.cma.2018.10.011 10.1002/nme.6249 10.1007/s00158-020-02629-w 10.1016/j.apm.2019.12.009 10.1002/nme.7574 10.1016/j.cma.2023.116371 10.1007/s00158-020-02733-x 10.1007/s00158-021-02933-z 10.3390/machines11121047 10.1016/j.ijmecsci.2023.108773 10.1016/j.cma.2021.113799 10.1007/s00366-024-02083-y 10.1007/s001580050176 10.1007/s10409-021-09028-x 10.1016/j.cma.2023.116437
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SubjectTerms	Advanced Transportation Equipment Algorithms Comparative studies Composite materials Deformation Efficiency Electrical Machines and Networks Electronics and Microelectronics Energy Engineering Engineering Thermodynamics Equilibrium Equilibrium equations Finite element method Geometric nonlinearity Heat and Mass Transfer Heat treating Instrumentation Load Machines Manufacturing Mechanical Engineering Newton-Raphson method Optimization Original Article Power Electronics Processes Theoretical and Applied Mechanics Topology optimization
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Title	Bi-Directional Evolutionary Topology Optimization with Adaptive Evolutionary Ratio for Nonlinear Structures
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