Weigang An scite author profile

This work introduces a new approach to targeting the dynamic response of thin-walled energy absorbing structures through the decomposition of the force-displacement (FD) response and the use of topometry (thickness) optimization. The proposed method divides the non-linear optimization problem into a series of analytical subproblems. In each iteration, an explicit dynamic analysis is carried out and the dynamic response of the structure is then used to define the subproblem. Numerical examples show that the algorithm can tailor the FD response of the structure to a target FD curve. Progressive collapse, which is a high-energy collapse mode and desired in design for crashworthy, is observed in the optimized thin-walled structures. The proposed algorithm is computationally efficient as uses a fewer explicit simulations to reach the target response.

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Crashworthiness Optimization Design of Regional Airliner’s Fuselage Section Through Topometry Optimization

Wang

Han

2021

AIAA Journal

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Interactive Multi-objective Optimization Design for the Pylon Structure of an Airplane

Wei-ji

2007

Chinese Journal of Aeronautics

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Multi-objective Optimization Design of Wing Structure with the Model Management Framework

Wei-ji

Gou

2006

Chinese Journal of Aeronautics

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Weigang An

Targeting the acceleration-time response of vehicle structures under crash impact using equivalent dynamic loads

Targeting the force-displacement response of thin-walled structures subjected to crushing load using curve decomposition and topometry optimization

Crashworthiness Optimization Design of Regional Airliner’s Fuselage Section Through Topometry Optimization

Interactive Multi-objective Optimization Design for the Pylon Structure of an Airplane

Multi-objective Optimization Design of Wing Structure with the Model Management Framework

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