Affiliation of Author(s):材料科学与技术学院
Journal:INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
Key Words:Free bending Material parameters U-R relationship Sensitivity analysis Power hardening aluminum alloy Prediction method
Abstract:The bending radius (R) of the bending component is defined by the deflection (U) of the bending die in the tube free-bending process. The U-R relationship is the key factor to obtain the precise geometry size of the complex bending tubular components. Therefore, this study aims at proposing a new method to predict the U-R relationship for the arbitrary power hardening aluminum alloy (Al alloy) circular tube based on the U-R relationship of the reference material and the sensitivity analysis of material parameters, which may reduce many experimental works. In the current study, AA1100 alloy was set as the reference material, and the effects of each material parameter on the U-R relationship were investigated by carrying out the deformation and sensitivity analysis of the FEA simulation results. The results show that the bending radius increases with the decrease of elastic modulus (E), density (rho), and strain-hardening exponent (n) and the increase of strength coefficient (K) and initial yield stress (sigma(s)), where sigma(s) has the greatest influence on the U-R relationship. Moreover, the U-R relationship prediction method for arbitrary power hardening Al alloy circular tube was presented based on the sensitivity analysis of the reference material. Finally, the bending tests of the AA6061-T6 tubes were carried out to prove the accuracy of the U-R relationship prediction method. The bending results show that the experimental U-R relationship of the AA6061-T6 tube was consistent with the predicted value, and the prediction method had good applicability to power hardening Al alloy circular tube.
ISSN No.:0268-3768
Translation or Not:no
Date of Publication:2018-11-01
Co-author:Xiong, Hao,Xu, Yong,Abd El-Aty, Ali,Ma, Yannan,Zhao, Yonghao,Zhang, Shihong
Correspondence Author:gxz
Professor
Supervisor of Doctorate Candidates
Title : 工信部重点实验室副主任、江苏省工程实验室副主任
Education Level:南京航空航天大学
Degree:Doctoral Degree in Engineering
School/Department:College of Material Science and Technology
Discipline:Material Process Engineering
Business Address:新材料大楼A403办公室
Contact Information:136 0158 1696
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