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Abstract:
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The optimization method of operation quantity for automobile front door outer panel was studied, and the CAE analysis model was established by software AutoForm. Then, the stamping process was simulated and analyzed, and the optimized result was obtained by the multiple optimization analysis. The analysis results show that the thinning ratio in the water cut side is so high that it is easy to generate cracking risk, and the sizing process is added to solve the formability problem effectively of the front door outer panel. Furthermore, the fixing hole of rear view mirror is located on the front door outer panel, and the process plan requires five steps to avoid interference between flanging and side piercing operations. Therefore, through reasonable process optimization and die structure design, the operation quantity is effectively reduced from five to three by the cutting and sizing process and the die structure with side piercing through block, and the qualified products of quality and precision are produced by the least operation quantity to reduce the cost of die as well as the cost and cycle of product development.
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Funds:
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广东省科技厅战略性新兴产业核心技术攻关项目(2011A091102005)
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AuthorIntro:
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尤彬波(1989-),男,学士,E-mail:youbinbo@gacrnd.com
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Reference:
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