Z形型材滚弯成形有限元模拟及数值分析
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摘要
本文对型材滚弯成形过程及回弹进行了深入的研究,采用有限元方法对滚弯成形过程及回弹进行了数值模拟。
首先介绍了型材滚弯的特点和应用,总结了国内外关于型材弯曲回弹问题理论研究的现状及发展趋势,阐述了论文的立题背景和意义。然后,对型材滚弯基本原理及滚弯过程中遇到的问题做了详尽的叙述。接着对滚弯成形过程中涉及到的材料、几何及接触三大非线性问题和影响回弹量的因素进行了分析和归纳,详尽阐述了型材滚弯成形回弹数值模拟的有限元方法,为后文的有限元模拟提供了理论基础。
型材滚弯成形过程是一个动力学过程,因此采用显式和隐式算法相结合的有限元方法对Z形型材的滚弯成形加工过程和回弹进行了数值模拟,分析了型材滚弯回弹的应力、应变情况。揭示了型材厚度、滚弯半径、摩擦系数与型材回弹之间的影响规律,并研究了不同的型材厚度、滚弯半径、摩擦系数在滚弯成形过程中的应力、应变情况,以探求回弹的内在作用机理。对型材成形性能和壁厚进行了模拟,从而改善成形过程。
为了探求多因素对型材回弹共同作用的情况,进行了正交模拟试验,确定了各因素对型材回弹影响的主次,并对型材回弹工艺参数进行了初步优化。在此基础上为了减少型材滚弯成形有限元模拟的时间,组建了BP神经网络。并对减小回弹的几种工艺措施进行了初步的研究,对提高滚弯成形零件的加工精度具有一定的指导意义。
This thesis studied the profile extrusion roll bending forming process and springback intensively, and did numerical simulation for the process, using finite element method.
First, the thesis introduced the character and application of the profile extrusion roll bending, and concluded the current situation and development of the topic that the profile extrusion roll bending and springback home and abroad. It also elaborated on the background and significance of the topic.
Then, it made an exhaustive statement to the basic theory of profile extrusion roll bending and the problems met during the roll bending. After that, the thesis analyzed and generalized three nonlinear problems (materia nonlinearity、geometrie nonlinearity and contact boundary nonlinearity) and the factors which affects the values of springback. Finite element method was elaborated intensively, which laid a theory basis for finite element simulation in the next paragraph.
The profile extrusion roll bending process is a dynamic one, so the thesis adopted the finite element method combined the explicit with the implicit algorithm, to do numerical simulation for Z profile roll bending process. It showed the influence law.the profile thickness、roll bending radius、friction coefficient during springback. And it researched stress-strain at different profile thickness, roll bending radius, friction coefficient in the roll bending process to study the intrinsic springback mechanism.Did simulation for forming function and wall thickness,thus make the forming process much better.
To research how multifactor act on the profile extrusion roll bending in chorus, the thesis made orthogonal simulated experiment. As a result, it fixed the different roles various factors played and made preliminary technological parameter optimization in the roll bending process on which BP Neural Network has been built to shorten the time the finite element simulation. It did preliminary research on several technological measures which depress the springback, and it has directive significance on advancing the processing precision of the roll bending forming.
首先介绍了型材滚弯的特点和应用,总结了国内外关于型材弯曲回弹问题理论研究的现状及发展趋势,阐述了论文的立题背景和意义。然后,对型材滚弯基本原理及滚弯过程中遇到的问题做了详尽的叙述。接着对滚弯成形过程中涉及到的材料、几何及接触三大非线性问题和影响回弹量的因素进行了分析和归纳,详尽阐述了型材滚弯成形回弹数值模拟的有限元方法,为后文的有限元模拟提供了理论基础。
型材滚弯成形过程是一个动力学过程,因此采用显式和隐式算法相结合的有限元方法对Z形型材的滚弯成形加工过程和回弹进行了数值模拟,分析了型材滚弯回弹的应力、应变情况。揭示了型材厚度、滚弯半径、摩擦系数与型材回弹之间的影响规律,并研究了不同的型材厚度、滚弯半径、摩擦系数在滚弯成形过程中的应力、应变情况,以探求回弹的内在作用机理。对型材成形性能和壁厚进行了模拟,从而改善成形过程。
为了探求多因素对型材回弹共同作用的情况,进行了正交模拟试验,确定了各因素对型材回弹影响的主次,并对型材回弹工艺参数进行了初步优化。在此基础上为了减少型材滚弯成形有限元模拟的时间,组建了BP神经网络。并对减小回弹的几种工艺措施进行了初步的研究,对提高滚弯成形零件的加工精度具有一定的指导意义。
This thesis studied the profile extrusion roll bending forming process and springback intensively, and did numerical simulation for the process, using finite element method.
First, the thesis introduced the character and application of the profile extrusion roll bending, and concluded the current situation and development of the topic that the profile extrusion roll bending and springback home and abroad. It also elaborated on the background and significance of the topic.
Then, it made an exhaustive statement to the basic theory of profile extrusion roll bending and the problems met during the roll bending. After that, the thesis analyzed and generalized three nonlinear problems (materia nonlinearity、geometrie nonlinearity and contact boundary nonlinearity) and the factors which affects the values of springback. Finite element method was elaborated intensively, which laid a theory basis for finite element simulation in the next paragraph.
The profile extrusion roll bending process is a dynamic one, so the thesis adopted the finite element method combined the explicit with the implicit algorithm, to do numerical simulation for Z profile roll bending process. It showed the influence law.the profile thickness、roll bending radius、friction coefficient during springback. And it researched stress-strain at different profile thickness, roll bending radius, friction coefficient in the roll bending process to study the intrinsic springback mechanism.Did simulation for forming function and wall thickness,thus make the forming process much better.
To research how multifactor act on the profile extrusion roll bending in chorus, the thesis made orthogonal simulated experiment. As a result, it fixed the different roles various factors played and made preliminary technological parameter optimization in the roll bending process on which BP Neural Network has been built to shorten the time the finite element simulation. It did preliminary research on several technological measures which depress the springback, and it has directive significance on advancing the processing precision of the roll bending forming.
引文
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[24]L.Papeleux,J.P.Ponthot.Finite Element Simulation of Springback in Sheet Metal Forming[J].Journal of Materials Processing Technology,2002,125-126:785-791
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[2]FRANK Vollertsen. Extrusion channel and extrusion bending:a review[J].Journal of Materials Processing Technology,1999,87:1-27
[3]杨泽明.型材制造技术浅谈[J].航空与航天,2002,(4):28-29
[4]孙卫东.数控四轴型材滚弯机应用研究[D].西安:西北工业大学,2001
[5]李光耀等.型材弯曲工艺的现状及发展前景[J].塑性工程学报,2008,15(3):61-70
[6]李文平.弯曲回弹变分原理及其数值模拟研究[D].秦皇岛:燕山大学,2006
[7]朱东波等著.板料成形回弹问题研究新进展[J].塑性工程学报,2000,7(1):11-16
[8]余同希,张亮炽.塑性弯曲理论及其应用[M].北京:科学出版社,1992:9-19,45-86,81-187
[9]Ludwik P. Technologische Studie UberBlechbiegung[R]. Technische Blatter,1903
[10]Gardiner F.J. The springback of metals[J]. Trans. ASME,1957,79:1-6
[11]Queener C.A, DeAngelis R.J. Elastic springback and residual stresses in sheetmetal formed by bending[J]. ASM Transactions,1968,61:757-768
[12]Duncan J.L, Bird J.E. Die forming approximations for aluminum sheet[J]. SheetMetal Industry,1978, (9)
[13]Proksa F. Zur Theorie des Plastischen Blechbiegens[D]. Diss. TH Hannover,1958
[14]张立玲.管材塑性弯曲回弹量计算[J].锻压技术,2002,(3):37-39
[15]Huang M, Gerdeen J.C. Springback of doubly curved developable sheetmetal surface-An overview[J]. Transferred to the Society of Automotive Engineers,1994,5
[16]曾田,小西.塑性と加工.1962,3(18):474
[17]曾田,小西.塑性と加工.1963,4(31):515
[18]山川俊夫等.塑性と加工.1972,18(193):106
[19]莫施宁.弯卷机和矫正机[M].北京:机械工业出版社,1958
[20]A.H.格罗莫娃等.成批生产中板材和型材零件的制造[M].北京:国防工业出版社,1964
[21]Hansen N.E,Tannerup O.Modeling of Elastic-Plastic Bending of Beams Using a Roller Bending Machine[J]. Trans.ASME, J.Engng.Indust, Aug.1979,101:304
[22]D.Zhou,R.H.Wagoner.Development and Application of Sheet Forming Simulation[J].Journal of Materials Processing Technology,1995,50:1-16
[23]K.P.Li,W.P.Carden,R.H.Wagoner.Simulation of Springback[J].International Journal of Mechanical Sciences,2002,44:103-122
[24]L.Papeleux,J.P.Ponthot.Finite Element Simulation of Springback in Sheet Metal Forming[J].Journal of Materials Processing Technology,2002,125-126:785-791
[25]林逸汉,李凡,张迪.四辊轮多次弯板成形过程的刚性夹持模型[J].复旦学报,2002,41(5):495-500
[26]赵叶锋,陈靖芯,陆国民.U形件弯曲成形中回弹的数值模拟研究[J].拖拉机与农用运输车,2005,(2):42-47
[27]王洪芬,陶忠祥.弯曲件回弹主要影响因素研究[J].吉林工程技术师范学院学报,2009,25(3):64-66
[28]北京理工大学.ANSYS/LS-DYNA算法基础和使用方法[M].北京:ANSYS/LS-DYNA中国技术支持中心,1999,33-34
[29]刘建生,陈慧琴,郭晓霞.金属塑性加工有限元模拟技术与应用[M].北京:冶金工业出版社,2003
[30]龚尧南.结构分析中的非线性有限元素法[M].北京:航空学院出版社,1986.11
[31]刘北辰等.工程计算力学—理论与应用[M].北京:机械工业出版社,1990.10
[32]蒋友谅.非线性有限元法[M].北京:北京理工大学出版社,1988.6
[33]汪晨,张质良.二维板料U形弯曲回弹的数值模拟研究[J].金属成形工艺,1999,17(4):33-35
[34]陈森灿,叶庆荣.金属塑性加工原理[M].北京:清华大学出版社,1989
[35]殷有泉.非线性有限元基础[M].北京:北京大学出版社,2007
[36]郑军兴.冷弯成型有限元数值模拟及回弹分析[D].昆明:昆明理工大学,2006
[37]D.J.Benson,J.O.Hallquis. A Single Surface Contact Algorithm for the Post-buckling Analysis of Shell Structures[J].Computer Mothods in Applied Mechanies and Engineering,1990,78:141-163
[38]赵海鸥,邵仁兴.LS-DYNA动力分析指南[M].上海:机械工业出版社,2003:24-30
[39]钟志华,李光耀.冲压成形CAE技术中接触摩擦计算的新方法[J].机械工程学报,2001,37(2):33-37
[40]瑞士HAEUSLER公司.数控四轴滚弯机VPR-9-SPC2-CNC使用说明书[M].随机资料
[41]周养萍.型材滚弯加工滚轮结构的改进[J].高校理科研究,2009:424-426
[42]陈文亮.板料成形CAE分析教程[M].北京:机械工业出版社,2005
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