G. L. Chen scite author profile

Nowadays, vehicle lightweight design is a main topic in automotive industry. Crashworthiness, which is the most important performance of a full vehicle, must be always satisfied in the study on body lightweight design. This paper presents research, from the point of view of safety, of structural lightweight design of the front side rail of a passenger car. The response surface method is used to create mathematical models that represent the relationship between structural sheet thicknesses and absorbed energy of the entire structure in the frontal crash simulation, and the relationship between structural sheet thicknesses and the mass of the entire structure. Then an optimization process is performed, and the structural mass and original absorbed energy are defined as objective and constraint functions, respectively. Minimum mass and structural sheet thicknesses are obtained with the satisfaction of original absorbed energy of the front side rail structure. The weight reduction of the front side rail is 26.95%.

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Optimal design of electrode cooling system for resistance spot welding with the response surface method

Lai

Luo

Zhang

et al. 2008

Int J Adv Manuf Technol

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G. L. Chen

Review of dynamic issues in micro-end-milling

Determination of optimal blank holder force trajectories for segmented binders of step rectangle box using PID closed-loop FEM simulation

On-line evaluation of electrode wear by servo gun in resistance spot welding

Study on Structural Lightweight Design of Automotive Front Side Rail Based on Response Surface Method

Optimal design of electrode cooling system for resistance spot welding with the response surface method

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