Investigation on Forming Process of Automobile Trunk Side Panel Based on Numerical Simulation Technology

Hai Peng Li; Jia Wei Fan; Li Hui Wang; Xue Xia Wang; Ju Yuan Zhao

doi:10.4028/www.scientific.net/AMR.634-638.2855

Paper Titles

Experimental Investigations and Finite-Element Modeling of Thermoplastic Effect during Tensile Tests of Metal Material
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Fabrication of Micro-Pins by Electrochemical Machining
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Friction Correction and Constitutive Equation of a Non-Quenched and Tempered Steel during Hot Deformation
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Influence of Rolling Lubrication for Self-Excited Vibration on Tandem Cold Rolling Mill
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Investigation on Forming Process of Automobile Trunk Side Panel Based on Numerical Simulation Technology
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Numerical Simulation the Stress Uniformity in Split Hopkinson Pressure Bar Testing
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Microstructural Evolution of AuSn20/Ni Joint during Annealing
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Research on Formability of Aluminum Alloy 2024 Sheet by Viscous Pressure Forming
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Research on Intelligent Precise Pass Design Based on Spline Finite Strip Method
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Investigation on Forming Process of Automobile Trunk Side Panel Based on Numerical Simulation Technology

Abstract:

The forming process of automobile trunk side panel was investigated, using numerical simulation technology, to acquire the feasible process parameters and improve the formability of the product. With the technology, the manufacturability working procedures and drawing process parameters of the product were analyzed, calculated and simulated to achieve optimum formability characteristics. The method effectively lowers the probability of springback, wrinkling and thickness reduction, and shortens design cycle and cost. Based on the simulation results including forming limit diagram and thickness distribution diagram, the feasible process parameters are determined.