Application of new VBHF optimization strategy to improve formability of automobile panels with aluminum alloy sheet

A VBHF（Variable Blank Holder Force） optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories,aiming at improving the formability of automobile panels with aluminum alloy sheet.The strategy was implemented based on adaptive simulation to calculat...

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Published in	Transactions of Nonferrous Metals Society of China Vol. 20; no. 3; pp. 471 - 477
Main Author	王武荣陈关龙林忠钦
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.03.2010 Shanghai Key Laboratory of Digital Autobody Engineering, School of Mechanical Engineering,Shanghai Jiao Tong Un School of Materials Science and Engineering, Shanghai University, Shanghai 200072, China%School of Materials Science and Engineering, Shanghai University, Shanghai 200072, China
Subjects	aluminum alloy sheet Aluminum base alloys Automotive components Automotive engineering deep drawing Formability Optimization Panels Strategy variable blank holder force Weight reduction 优化策略变压边力成形性能模拟计算汽车板空间变量铝合金板材 variable blank holder force aluminum alloy sheet formability deep drawing
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ISSN	1003-6326
DOI	10.1016/S1003-6326(09)60164-3

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Abstract	A VBHF（Variable Blank Holder Force） optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories,aiming at improving the formability of automobile panels with aluminum alloy sheet.The strategy was implemented based on adaptive simulation to calculate the critical wrinkling BHF for each segmented binder of the Numisheet＇ 05 deck lid in a single round of simulation.The thickness comparison of the stamped part under optimal VBHF and constant BHF shows that the variance of the four sections is decreased by 70%,44%,64% and 61%,respectively,which indicates significant improvement in thickness distribution and variation control.The investigation through strain path comparison reveals the fundamental reason of formability improvement.The study proves the applicability of the new VBHF optimization strategy to complex parts with aluminum alloy sheet.
AbstractList	A VBHF（Variable Blank Holder Force） optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories,aiming at improving the formability of automobile panels with aluminum alloy sheet.The strategy was implemented based on adaptive simulation to calculate the critical wrinkling BHF for each segmented binder of the Numisheet＇ 05 deck lid in a single round of simulation.The thickness comparison of the stamped part under optimal VBHF and constant BHF shows that the variance of the four sections is decreased by 70%,44%,64% and 61%,respectively,which indicates significant improvement in thickness distribution and variation control.The investigation through strain path comparison reveals the fundamental reason of formability improvement.The study proves the applicability of the new VBHF optimization strategy to complex parts with aluminum alloy sheet. A VBHF (Variable Blank Holder Force) optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories, aiming at improving the formability of automobile panels with aluminum alloy sheet. The strategy was implemented based on adaptive simulation to calculate the critical wrinkling BHF for each segmented binder of the Numisheet'05 deck lid in a single round of simulation. The thickness comparison of the stamped part under optimal VBHF and constant BHF shows that the variance of the four sections is decreased by 70%, 44%, 64% and 61%, respectively, which indicates significant improvement in thickness distribution and variation control. The investigation through strain path comparison reveals the fundamental reason of formability improvement. The study proves the applicability of the new VBHF optimization strategy to complex parts with aluminum alloy sheet. TG1; A VBHF (Variable Blank Holder Force) optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories, aiming at improving the formability of automobile panels with aluminum alloy sheet. The strategy was implemented based on adaptive simulation to calculate the critical wrinkling BHF for each segmented binder of the Numisheet'05 deck lid in a single round of simulation. The thickness comparison of the stamped part under optimal VBHF and constant BHF shows that the variance of the four sections is decreased by 70%, 44%, 64% and 61%, respectively, which indicates significant improvement in thickness distribution and variation control. The investigation through strain path comparison reveals the fundamental reason of formability improvement. The study proves the applicability of the new VBHF optimization strategy to complex parts with aluminum alloy sheet.
Author	王武荣陈关龙林忠钦
AuthorAffiliation	School of Materials Science and Engineering, Shanghai University, Shanghai 200072, China Shanghai Key Laboratory of Digital Autobody Engineering, School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China State Key Laboratory of Mechanical System and Vibration, Shanghai Jiao Tong University, Shanghai 200240, China
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Snippet	A VBHF（Variable Blank Holder Force） optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories,aiming at... A VBHF (Variable Blank Holder Force) optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories, aiming at... TG1; A VBHF (Variable Blank Holder Force) optimization strategy was employed to determine the optimal time-variable and spatial-variable BHF trajectories,...
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SubjectTerms	aluminum alloy sheet Aluminum base alloys Automotive components Automotive engineering deep drawing Formability Optimization Panels Strategy variable blank holder force Weight reduction 优化策略变压边力成形性能模拟计算汽车板空间变量铝合金板材
Title	Application of new VBHF optimization strategy to improve formability of automobile panels with aluminum alloy sheet
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