Optimal Design of Nonlinear Multimaterial Structures for Crashworthiness Using Cluster Analysis

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2017-08
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English
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Abstract

This study presents an efficient multimaterial design optimization algorithm that is suitable for nonlinear structures. The proposed algorithm consists of three steps: conceptual design generation, clustering, and metamodel-based global optimization. The conceptual design is generated using a structural optimization algorithm for linear models or a heuristic design algorithm for nonlinear models. Then, the conceptual design is clustered into a predefined number of clusters (materials) using a machine learning algorithm. Finally, the global optimization problem aims to find the optimal material parameters of the clustered design using metamodels. The metamodels are built using sampling and cross-validation and sequentially updated using an expected improvement function until convergence. The proposed methodology is demonstrated using examples from multiple physics and compared with traditional multimaterial topology optimization (MTOP) method. The proposed approach is applied to a nonlinear, multi-objective design problems for crashworthiness.

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Liu, K., Detwiler, D., & Tovar, A. (2017). Optimal Design of Nonlinear Multimaterial Structures for Crashworthiness Using Cluster Analysis. Journal of Mechanical Design, 139(10), 101401. https://doi.org/10.1115/1.4037620
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Journal of Mechanical Design
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