Liukai Yuan scite author profile

<div class="section abstract"><div class="htmlview paragraph">The front end structure is an important role in protecting the vehicle and passengers from harm during the collision. Increasing its protective capacity can be achieved by increasing the thickness or replacing high-strength materials. Most of the current research is analyzed separately from these two aspects. This paper proposes a multi-objective optimization method based on weighting factor analysis, which combines material and thickness selection. Firstly, the optimized components are determined based on the 100% frontal collision simulation results. Secondly, six thicknesses and two materials of the front part of the vehicle body are selected as design variables to construct an orthogonal test design. In this paper, a weight-based multi-factor optimization method is used to numerically analyze the response results obtained by orthogonal experiments. Analyze the impact of each factor on the optimization goal to select the most reliable optimization. This optimization method can select the best material and component thickness combination scheme. The results show that the mass of the selected parts are reduced by 16.5%; the total energy absorption is increased by 5.2%; the intrusion in the dash is reduced by 8.9%; and the peak acceleration of the B-pillar is reduced by 39.2%.The material-structure integration optimization method is an effective method to solve the contradiction between lightweight and crashworthiness.</div></div>

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Construction and Simulation Analysis of Driving Cycle of Urban Electric Logistic Vehicles

Cheng

Wang

Zhang

et al. 2020

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Study on the Ride Performance of a Semi-Active Air Suspension Vehicle under Complex Models Based on Co-Simulation

Zhao

Wang

Yang³

et al. 2015

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Frontal crashworthiness optimization for a light-duty vehicle based on a multi-objective reliability method

Zhang

Wang

et al. 2022

International Journal of Crashworthiness

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Liukai Yuan

Development in the Acquisition of Vehicle Loads Integrated with a Rigid and Flexible Multi-Body Model

Lightweight Design of Automotive Front End Material-Structure Based on Frontal Collision

Construction and Simulation Analysis of Driving Cycle of Urban Electric Logistic Vehicles

Study on the Ride Performance of a Semi-Active Air Suspension Vehicle under Complex Models Based on Co-Simulation

Frontal crashworthiness optimization for a light-duty vehicle based on a multi-objective reliability method

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