| MODELING OF SUPERPLASTIC FORMING PROCESS FOR ALUMINUM ALLOYS WITH STRAIN HARDENING EFFECT |
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| 引用本文: | Y.N. Kwon and Y.-W. Chang(Center for Advanced Aerospace Materials (CAAM),Pohang University of Science and Technology,Pohang 790-784. Korea ). MODELING OF SUPERPLASTIC FORMING PROCESS FOR ALUMINUM ALLOYS WITH STRAIN HARDENING EFFECT[J]. 金属学报(英文版), 1996, 9(6): 537-544 |
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| 作者姓名: | Y.N. Kwon and Y.-W. Chang(Center for Advanced Aerospace Materials (CAAM) Pohang University of Science and Technology Pohang 790-784. Korea ) |
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| 作者单位: | Y.N. Kwon and Y.-W. Chang(Center for Advanced Aerospace Materials (CAAM),Pohang University of Science and Technology,Pohang 790-784. Korea ) |
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| 摘 要: | MODELINGOFSUPERPLASTICFORMINGPROCESSFORALUMINUMALLOYSWITHSTRAINHARDENINGEFFECTY.N.KwonandY.-W.Chang(CenterforAdvancedAerospac...
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| 收稿时间: | 1996-12-25 |
| 修稿时间: | 1996-12-25 |
MODELING OF SUPERPLASTIC FORMING PROCESS FOR ALUMINUM ALLOYS WITH STRAIN HARDENING EFFECT |
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| Y.N. Kwon and Y.-W. Chang,Pohang University of Science and Technology,Pohang -. Korea Manuscript received August ). MODELING OF SUPERPLASTIC FORMING PROCESS FOR ALUMINUM ALLOYS WITH STRAIN HARDENING EFFECT[J]. Acta Metallurgica Sinica(English Letters), 1996, 9(6): 537-544 |
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| Authors: | Y.N. Kwon Y.-W. Chang Pohang University of Science Technology Pohang -. Korea Manuscript received August ) |
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| Abstract: | Superplastic forming of a thin sheet into complex shape is an important manufacturing process especially in aerospace industry. The main objective of modeling the superplastic forming process is to predict the forming pressure-time cycle to maintain the optimum strain rate and the resulting thickness distribution. There have been many attempts to model superplastic forming process using the various techniques including finite element method. However, most of these attempts so far have disregarded the strain hardening effect which occurs in several superplastic materials. In this study,we have used ABAQUS finite element code to predict the suitable processing variables during an axisymmetric cup forming of Supral 100 and 7075Al alloys to examine the strain hardening effects on forming. The performance of numerical results was then compared with the experimental results. |
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| Keywords: | superplastic forming strain hardening supral 100 7075Al FEM |
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