[1]郭浩宇、闫晓磊、陈昌荣(通)、练国富、黄旭、冯美艳.铝型材拉弯成形数值模拟及工艺优化[J].福建工程学院学报,2020,18(06):576-582.[doi:10.3969/j.issn.1672-4348.2020.06.012]
 GUO Haoyu,YAN Xiaolei,CHEN Changrong,et al.Numerical simulation and process optimization of aluminum profile 〖JZ〗stretch-bending forming[J].Journal of FuJian University of Technology,2020,18(06):576-582.[doi:10.3969/j.issn.1672-4348.2020.06.012]
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铝型材拉弯成形数值模拟及工艺优化()
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《福建工程学院学报》[ISSN:2097-3853/CN:35-1351/Z]

卷:
第18卷
期数:
2020年06期
页码:
576-582
栏目:
出版日期:
2020-12-25

文章信息/Info

Title:
Numerical simulation and process optimization of aluminum profile 〖JZ〗stretch-bending forming
作者:
郭浩宇、闫晓磊、陈昌荣(通)、练国富、黄旭、冯美艳
福建工程学院机械与汽车工程学院
Author(s):
GUO Haoyu12 YAN Xiaolei12 CHEN Changrong1 LIAN Guofu1 HUANG Xu1 FENG Meiyan
School of Mechanical and Automobile Engineering, Fujian University of Technology
关键词:
铝型材拉弯成形数值模拟工艺参数回弹
Keywords:
aluminum prafile stretch-bending numerical simulation process parameters springback
分类号:
TG386.4
DOI:
10.3969/j.issn.1672-4348.2020.06.012
文献标志码:
A
摘要:
针对汽车行李架铝型材拉弯成型问题,运用ABAQUS 有限元分析软件,建立型材拉弯成形过程的有限元模型,通过对A6043 铝型材结构件进行拉弯成形正交数值试验,研究预拉量、包覆拉伸量、补拉量和摩擦系数等拉弯成形关键工艺参数对型材回弹量的影响规律,结果表明:在一定拉伸范围内,回弹量随预拉量、包覆拉伸量、补拉量的增大而减少,随摩擦系数的增大先减小后增大?工艺参数中包覆拉伸量对回弹结果的影响最大,达到3%,回弹量趋于稳定?当预拉量为1%、包覆拉伸量为3%、补拉量为1%、摩擦系数为0.1 的工艺参数下,不规则铝型材汽车行李架拉弯成形后的回弹量最小。
Abstract:
Aiming at the problem of stretch-bending forming of automotive luggage rack aluminum profiles, ABAQUS finite element analysis software was used to establish a finite element model of the stretch-bending process. Through the orthogonal numerical experiment of stretch-bending forming of A6043 aluminum profile structural parts, the influence of key process parameters of stretch-bending forming such as pre-stretching amount, coating stretch amount, supplementary stretch amount and friction coefficient on the springback of the profile was studied. Results show that within a certain stretching range, the amount of springback decreases with the increase of the pre-stretch, the amount of coating stretch, and the amount of supplementary stretch, and it first decreases and then increases with the increase of the friction coefficient. In the process parameters, cladding stretch amount has the greatest influence on the springback results. When the maximum coating stretch reaches 3%, the springback tends to be stable; when the pre-stretch amount is 1%, the coating stretch is 3%, the supplementary stretch is 1%, and the friction coefficient is 0.1, the elasticity of the irregular aluminum car roof rack after bending is the smallest.

参考文献/References:

[1] CORONA E. A simple analysis for bend-stretch forming of aluminum extrusions[J]. International Journal of MechanicalSciences, 2004, 46(3): 433-448. [2] 郝涛涛. 非对称截面型材拉弯成形数值模拟研究[D]. 南京:南京航空航天大学, 2014. [3] FINN M, GALBRAITH P, WU L, et al. Use of a coupled explicit—implicit solver for calculating spring-back in automotive body panels[J]. Journal of Materials Processing Technology, 1995, 50(1/2/3/4): 395-409. [4] 梁继才, 李义, 高嵩, 等. 型材多点柔性拉弯成形回弹预测[J]. 吉林大学学报(工学版), 2017, 47(1): 185-190. [5] SCHILP H, SUH J, HOFFMANN H. Reduction of springback using simultaneous stretch-bending processes[J]. International Journal of Material Forming, 2012, 5(2): 175-180. [6] GU Z, JIA L, LI X, et al. Stretch bending defect control of L-section SUS301L stainless-steel components with variable contour curvatures[J]. Journal of Iron and Steel Research International, 2019, 26(12): 1376-1384. [7] 杜建宁, 李小强, 高岩. 典型铝合金型材零件拉弯成形工艺的数值模拟与实验研究[J]. 锻压技术, 2015, 40(4): 148-151. [8] 卜晓珍, 翟华, 周丽华, 等. π截面铝合金型材拉弯成形工艺数值模拟研究[J]. 塑性工程学报, 2019, 26(2): 151-161. [9] VOLLERTSEN F, SPRENGER A, KRAUS J, et al. Extrusion, channel, and profile bending: a review[J]. Journal of Materials Processing Technology, 1999, 87(1/2/3): 1-27. [10] 周贤宾, 刁可山, 李晓星, 等. 闭截面型材的拉弯成形性[J]. 北京航空航天大学学报, 2006, 32(10): 1168-1173. [11] 王贺, 黄霞, 孙莹, 等. 铝型材拉弯成形工艺稳健性优化[J]. 塑性工程学报, 2018, 25(3): 65-72. [12] 王雪. 铝型材三维多点拉弯成形回弹相关问题研究[D]. 长春: 吉林大学, 2014. [13] 滕克磊, 金朝海. 基于LS-DYNA的不锈钢车顶弯梁拉弯仿真[J]. 塑性工程学报, 2015, 22(2): 24-29, 83. [14] 王敏. 不锈钢车顶弯梁拉弯成形数值模拟[D]. 长春: 吉林大学, 2014.

更新日期/Last Update: 2020-12-25