对称式三辊卷板机卷板过程的理论分析与数值模拟
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摘要
卷板机在造船、锅炉、化工以及航空等行业中广泛应用。由于卷板过程中所用材料多是弹塑性材料,因此回弹就不可避免,这就导致所加工工件最终尺寸不易确定,精度难以保证。因此在卷板过程中,确定合适的工艺参数就成为滚弯加工过程的关键。传统的从大量加工经验中总结出来的方法通用性差,势必降低生产效率,增加生产成本,削弱产品在市场上的竞争力。本文的研究旨在通过对滚弯机理的研究和成形规律的总结,解决滚弯参数调整的难题,指导实际生产。同时,丰富了滚弯工艺理论,为板料滚弯成形的研究提供新的研究手段。
本文从理论分析和有限元仿真两个方面对板料滚弯过程进行了深入研究。
首先,基于板料弯曲理论,本文在总结现有研究的基础上,用强化型弹塑性模型材料代替理想弹塑性模型材料对滚弯形理论进行推导,揭示板料滚弯半径与中心辊下压量之间的关系,为卷板仿真提供了理论基础。并通过VB将计算过程编程,得出一个便于用户应用的界面。
其次,结合理论上的分析,借助有限元软件——DEFORM-2D,以对称式三辊卷板机为研究对象,已有的试验为依据进行建模。对多次滚弯过程进行仿真,将仿真计算的结果和已有试验数据进行比较,证明了有限元法的可行性。在此基础上用有限元软件对一次成形理论计算出来的数据进行仿真,得出了比较理想的结果。接着进一步研究了滚弯过程中其它主要参数对板料成形半径的影响,分析了产生影响的原因。
最后,对板料在滚弯过程中以及回弹过程中横截面上的受力情况进行了仿真分析和研究。得出了板料在滚弯变形过程中的受力情况,以及变形最大处横截面上应力的分布隋况和回弹后的板料残余应力的分布情况。
Rolling machine is widely used in shipbuilding, boiler, chemical and aviation industries. Commonly the material in bending process always is elastic-plastic material, so springback can not be avoided which makes the final size and precision of the workpiece can not be ensured. Hence the key problem in the bending process is to select proper technical parameters. The traditional technical method from vast experimental data obviously reduces the productive efficiency, increases the cost and weakens competitive power. In order to solve the difficult problem of rolling adjustment and direct the manufacturing, the theory of rolls bending is studied and the laws of forming is concluded in this dissertation.
Based on the theoretic and finite element simulation, the paper analyses the bending process profoundly.
First, based on the analysis of plane bending theoretic and the former research achievement, the paper uses harden elastic-plastic model in place the ideal elastic-plastic model for plane bending theoretic, builds the relationship between the descent of upper roll and bending radius, offers the basic for simulation and gives an convenient interface by VB.
Next, based on the theory basis and finite element software DEFORM-2D, this paper models and simulates the bending process. The results indicate that this method is feasible. And this paper simulates the one-time shaping progress, studies the influence of the structure parameter of the bending machine and the geometrical size of the plane on the bending radius and analyses the reasons.
Last, this paper studies and simulates the springback in the bending process. Obtain the stress distribution of the plane in the bending process and in the most serious deformation section, and the stress distribution of the residual stress.
本文从理论分析和有限元仿真两个方面对板料滚弯过程进行了深入研究。
首先,基于板料弯曲理论,本文在总结现有研究的基础上,用强化型弹塑性模型材料代替理想弹塑性模型材料对滚弯形理论进行推导,揭示板料滚弯半径与中心辊下压量之间的关系,为卷板仿真提供了理论基础。并通过VB将计算过程编程,得出一个便于用户应用的界面。
其次,结合理论上的分析,借助有限元软件——DEFORM-2D,以对称式三辊卷板机为研究对象,已有的试验为依据进行建模。对多次滚弯过程进行仿真,将仿真计算的结果和已有试验数据进行比较,证明了有限元法的可行性。在此基础上用有限元软件对一次成形理论计算出来的数据进行仿真,得出了比较理想的结果。接着进一步研究了滚弯过程中其它主要参数对板料成形半径的影响,分析了产生影响的原因。
最后,对板料在滚弯过程中以及回弹过程中横截面上的受力情况进行了仿真分析和研究。得出了板料在滚弯变形过程中的受力情况,以及变形最大处横截面上应力的分布隋况和回弹后的板料残余应力的分布情况。
Rolling machine is widely used in shipbuilding, boiler, chemical and aviation industries. Commonly the material in bending process always is elastic-plastic material, so springback can not be avoided which makes the final size and precision of the workpiece can not be ensured. Hence the key problem in the bending process is to select proper technical parameters. The traditional technical method from vast experimental data obviously reduces the productive efficiency, increases the cost and weakens competitive power. In order to solve the difficult problem of rolling adjustment and direct the manufacturing, the theory of rolls bending is studied and the laws of forming is concluded in this dissertation.
Based on the theoretic and finite element simulation, the paper analyses the bending process profoundly.
First, based on the analysis of plane bending theoretic and the former research achievement, the paper uses harden elastic-plastic model in place the ideal elastic-plastic model for plane bending theoretic, builds the relationship between the descent of upper roll and bending radius, offers the basic for simulation and gives an convenient interface by VB.
Next, based on the theory basis and finite element software DEFORM-2D, this paper models and simulates the bending process. The results indicate that this method is feasible. And this paper simulates the one-time shaping progress, studies the influence of the structure parameter of the bending machine and the geometrical size of the plane on the bending radius and analyses the reasons.
Last, this paper studies and simulates the springback in the bending process. Obtain the stress distribution of the plane in the bending process and in the most serious deformation section, and the stress distribution of the residual stress.
引文
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[18] Li Shangjian & Zhong Jianghong. THE ANALYSIS OF PLANE STRIA IN BENDING PROCESS. Advanced Technology of Plasticity[J], 1993-Proceeding of the Fourth International Conference on Technology of Plasticity
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[20] 张立力,齐恬.数值模拟参数和工艺参数对板材成形回弹影响的研究.锻压技术[J],2006,27(6):18-21
[21] 刘艳芳,施法中.板料冲压成形回弹的有限元数值模拟研究.锻压技术[J],2004,29(4):36-39,45
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[25] 宋黎,杨坚,黄天泽.板料弯曲成形的回弹分析与工程控制综述.锻压技术[J],1996,21(1):18-22
[26] 刘鸿文.材料力学.高等教育出版社[M],2001
[27] 余同希,章亮炽.塑性弯曲理论及其应用.北京科技出版社[M],1992
[28] 茅云生,侯磊,王呈方.板材弯曲伸长的理论研究.武汉理工大学学报[J],2006,26(5):592-595
[29] 龚发云,王训响.非对称式三辊弯板机卷板数学模型的研究.湖北工业大学学报[J],2005,20(3): 13-15
[30] 舒东海,王呈方.三辊弯板机自动控制数学模型的探讨.造船技术[J],1994,(6):19-21
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[33] M. Hua, D. H. Sansome, K. Baines. Mathematical modeling of the internal bending moment at the top roll contact in multi-pass four-roll thin-plate bending, Journal of Materials Processing Technology[J], 52 (1995) 425~459
[34] 茅云生,王呈方.神经网络在板材滚弯加工中的应用.造船技术[J],1998(3):14-16
[35] 李国义.对称式三辊卷板机卷制终了上下辊中心距“h”参数的实用图算法.内蒙古石油化工[J],(21):25-27
[36] 王萍,聂伟强.Visual Basic程序设计基础教程.清华大学出版社,2006
[37] 董湘怀,李尚健,肖景容.三维板料成形过程的有限元分析.机械工程学报[J],1995,31(1):53-59
[38] 李尚健,莫中华,肖景容.板料成形模拟技术.金属成形工艺[J],1993,11(2):84-87,83
[39] 张士宏,王仲士.有限元法在板材成形分析中的应用进展.金属成形工艺[J],1992,10(4):145-150
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[2] 郭刚,李雪春,徐伟力,杨玉英.帽形材换向绕弯的曲率弹复.材料科学与工艺[J],1998,(4):96~98
[3] M. Hua, K. Baines, I. M. Cole. Continuous four-roll plate bending: a production process for the manufacture of single seamed tubes of large and medium diameters. International Journal of Machine Tool & Manufacture[J], 39(1999): 905~935
[4] 藏爱昆.通用卷圆模设计.模具工业,1996(1):23~24
[5] 高炳天.三辊卷圆机的改进.兰州工业高等专科学校学报,2003,10(2):43-45
[6] 吕晓军.卷圆零件弯曲模具的设计与改进.轴承,1996(3):41-42
[7] 金国明.卷板过程中产生桶状变形的原因与对应措施.金属成形工业[J],1999,17(2):28-30
[8] 金国明.防治卷板时产生桶形零件的方法.压力加工[J],1999,(3):20-20
[9] 陈毓勋.板材与型材弯曲回弹控制原理与方法.国防工业出版社[M],1980
[10] 徐辅仁.船体板成形后曲率与三辊弯板机中心辊进给量的关系.中国造船[J],1991,(1):85-100
[11] Yamada Y. Plastic Stress-Strain Matrix and Its Application for the Solution of Elastic-Plastic Problem by the Finite Element Method, Int. J. Mech. Sci [J], 1968, 10
[12] Marcal P. V & King. Elastic-Plastic Analysis of Two-Dimensional Systems by the Finite Element Method, Int. J. Mech. Sci [J], 1967, 9
[13] Hibble, Marcal & Rice. A finite element formation for problem of large strain and large displacement, Int. J. Solids Struc[J], 1970, 6
[14] McMeeking R. M.& R ice J. R. Finite element formations for problems of large elastic-plastic deformation, Int. J. Solids Syruc[J], 1975, Vol. 11
[15] You-Min Huang & Yuung-Hwa L u. Akitake Makinouchi, Elasto-plastic finite-element analysis of V-shape sheet bending, Journal of Materials Processing Technology[J], 1992, 35: 29~150
[16] S. I. OH & ShIRO KOBA YASHI. FIINITE ELEMENT ANALYSIS OF PLANE-STRAIN SHEET BENDING, Iit. J. Mech. Sci[J]. Vol. 22: 583~594
[17] Akitake Makinouchi.板材U形弯曲的弹塑性应力分析.世界塑性加工最新译文集,机械工业出版社[M],1991
[18] Li Shangjian & Zhong Jianghong. THE ANALYSIS OF PLANE STRIA IN BENDING PROCESS. Advanced Technology of Plasticity[J], 1993-Proceeding of the Fourth International Conference on Technology of Plasticity
[19] 陈如欣,需剑欧,邓立信.板材弯曲成形过程的弹塑性应力、应变分析.重庆大学学报[J],1981,1
[20] 张立力,齐恬.数值模拟参数和工艺参数对板材成形回弹影响的研究.锻压技术[J],2006,27(6):18-21
[21] 刘艳芳,施法中.板料冲压成形回弹的有限元数值模拟研究.锻压技术[J],2004,29(4):36-39,45
[22] 肖军,李尚健.金属材料弯曲成形计算机模拟进展.塑性工程学报[J],1997,4(2):3-8
[23] 衡猛,周建忠.板料成形中有限元模拟技术的应用.电加工与模具[J],2004(2):49-51
[24] 赵侠,傅建.有限元模拟技术在板料冲压成形中的应用.西华大学学报(自然科学版)[J],2004(sl)
[25] 宋黎,杨坚,黄天泽.板料弯曲成形的回弹分析与工程控制综述.锻压技术[J],1996,21(1):18-22
[26] 刘鸿文.材料力学.高等教育出版社[M],2001
[27] 余同希,章亮炽.塑性弯曲理论及其应用.北京科技出版社[M],1992
[28] 茅云生,侯磊,王呈方.板材弯曲伸长的理论研究.武汉理工大学学报[J],2006,26(5):592-595
[29] 龚发云,王训响.非对称式三辊弯板机卷板数学模型的研究.湖北工业大学学报[J],2005,20(3): 13-15
[30] 舒东海,王呈方.三辊弯板机自动控制数学模型的探讨.造船技术[J],1994,(6):19-21
[31] 茅云生,侯磊,王呈方.板材滚弯成形的理论计算与自动控制模型.中国造船[J],2003,44(2):74-80
[32] 茅云生.板材滚弯时上辊下降值与成形曲率间关系的理论分析.武汉造船[J],1995,(1):22-27
[33] M. Hua, D. H. Sansome, K. Baines. Mathematical modeling of the internal bending moment at the top roll contact in multi-pass four-roll thin-plate bending, Journal of Materials Processing Technology[J], 52 (1995) 425~459
[34] 茅云生,王呈方.神经网络在板材滚弯加工中的应用.造船技术[J],1998(3):14-16
[35] 李国义.对称式三辊卷板机卷制终了上下辊中心距“h”参数的实用图算法.内蒙古石油化工[J],(21):25-27
[36] 王萍,聂伟强.Visual Basic程序设计基础教程.清华大学出版社,2006
[37] 董湘怀,李尚健,肖景容.三维板料成形过程的有限元分析.机械工程学报[J],1995,31(1):53-59
[38] 李尚健,莫中华,肖景容.板料成形模拟技术.金属成形工艺[J],1993,11(2):84-87,83
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