Analysis of superplastic blow-forming in a conical closed die |
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| Authors: | Yeong-Maw Hwang Jen-Shin Yang Tsung-Rong Chen Jacob C. Huang Wun-Uven Wu |
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| Affiliation: | a1Department of Mechanical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 804, Republic of China;a2Institute of Material Science and Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan 804, Republic of China |
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| Abstract: | A mathematical model using the finite-difference method has been proposed in this work to examine the plastic deformation behavior of the sheet during blow-forming in a conical closed die. In the formulation of this mathematical model, nonuniform thinning in the free bulged region and the contact condition including the sticking and sliding friction modes between the sheet and die are considered. Effects of various forming parameters such as the die entry radius, friction coefficient, inclined angle of the die, etc., upon the optimized pressurization profile, forming time and the thickness distribution of products were discussed systematically. Furthermore, experiments on superplastic blow-forming in a conical closed die were carried out using 8090 Al-Li sheets. It is found that the theoretical predictions agree with experimental results. The thickness distributions of the SPF-ed product obtained with different friction coefficients along the die entry, sidewall and bottom are closer to the experimental data than those obtained with a constant friction coefficient. |
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| Keywords: | Numerical analysis Metal forming Dies Mathematical models Finite difference method Sheet metal Plastic deformation Friction Superplasticity Optimization Pressurization Blow forming Conical closed die |
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