Simulation of Tube Forming Process in Mannesmann Mill 被引量：6

Simulation of Tube Forming Process in Mannesmann Mill

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摘要 The finite element method(FEM)is used for simulation of the tube piercing process in Mannesmann mill.The numerical model is described with taking into consideration thermal phenomena in metal during forming. The simulated results visualize dynamic distributions of mean stresses,temperature,velocity and shear stresses, especially inside the workpiece.On the basis of the basic parameters,the phenomenon in the piercing process is analyzed.The model is verified by comparing the values of calculated force parameters of the piercing process and those measured in laboratory conditions. The finite element method （FEM） is used for simulation of the tube piercing process in Mannesmann mill. The numerical model is described with taking into consideration thermal phenomena in metal during forming. The simulated results visualize dynamic distributions of mean stresses, temperature, velocity and shear stresses, especially inside the workpiece. On the basis of the basic parameters, the phenomenon in the piercing process is analyzed. The model is verified by comparing the values of calculated force parameters of the piercing process and those measured in laboratory conditions.

作者陆璐王照旭王辅忠朱光亚张兴祥

机构地区 College of Engineering Bohai University Department of Physics Tianjin Polytechnic University Wuxi Seamless Steel Tube Co..Ltd.. Institute of Functional Fiber Tianjin Polytechnic University

出处《Journal of Shanghai Jiaotong university(Science)》 EI 2011年第3期281-285,共5页 上海交通大学学报（英文版）

基金 the Tianjin Natural Science Foundation (Nos.06YFJMJC02200 and 11JCZDJC22600) Wuxi Steel Tube Factory for its financial support

关键词 finite element method(FEM) SIMULATION tube piercing process Mannesmann mill finite element method （FEM）, simulation, tube piercing process, Mannesmann mill

分类号 TG335.71 [金属学及工艺—金属压力加工]

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参考文献12

1FLEISCHER M. Auslegung ausgewahlter schmiedeprozessc mit hilfe der FEM [D]. Aachen : Maschinenbau College, 1996.
2SINCZAK J, MAHTA J, GLOWACKI M, et al. Prediction of mechanical properties of heavy forgings [J]. Journal of Materials Processing Technology, 1998, 80-81: 166- 173.
3URBA'NSKI S, KAZANECKI J. Assessment of the strain distribution in the rotary piercing process by the finite element method [J]. Journal of Materials Processing Technology, 1994, 45(1-4): 335-340.
4YOSHINURA H, MIHARA Y, MORI K. Simplified 3D FE simulation of rotary piercing controlling rotation of plug [C]// Methods and Applications : Proceedings of the 7th International Conference on Numerical Meth- ods in Industrial Forming Processes "Numiform 2001 ". Tokyo: Tokyo University Press, 2001: 577-582.
5PIETSH J, THIEVIEN P. FEM simulation of the rotary tube piercing process [J]. Journal of Materials Processing Technology, 2003, 26(2): 52-60.
6CERETTI E, GIARDINI C, ATTANASIO A, et al. Rotary tube piercing study by FEM analysis: 3D simulations and experimental results [J]. Journal of Tube & Pipe Technology, 2004, 17(2): 155-159.
7KOMORI K. Simulation of Mannesmann piercing process by the three dimensional rigid-plastic finite-element method [J]. International Journal of Mechanical Sciences, 2005, 47(12): 1838-1853.
8PATER Z, KAZANECKI J, BARTNICKI J. Three dimensional thermo-mechanical simulation of the tube forming process in Diescher's mill [J]. Journal of Materials Processing Technology, 2006, 177(1-3): 167-170.
9KOBAYASHI S, OH S I, ALTAN T. Metal forming and the finite-element method [M]. New York: Oxford University Press, 1989.
10MSC.Software Corporation. MSC.SuperForm user's guide version 2005 [M]. South Coast Metro: MSC.Software Corporation Press, 2005.

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1邓丕安.半浮动芯棒连轧管机工艺及变形特点[J].钢管,2004,33(4):32-35. 被引量：10
2殷国茂.我国无缝钢管技术装备的现状及发展前景(下)[J].钢管,2005,34(2):1-5. 被引量：2
3陈文琢,刘靖,李小龙,傅晨光.Φ400mm自动轧管机有限元模拟及工艺优化[J].钢管,2005,34(3):41-44. 被引量：1
4陈军,赵永庆,常辉.中国船用钛合金的研究和发展[J].材料导报,2005,19(6):67-70. 被引量：74
5刘汉玉.自动轧管机孔型磨损及对壁厚精度影响的探讨[J].钢管,1995,24(6):13-18. 被引量：1
6赵志毅,洪慧平,谢建新,康永林,余勇,潘峰.全浮动芯棒连轧管过程三维热力耦合有限元模拟[J].北京科技大学学报,2007,29(3):315-319. 被引量：4
7GELEJI A. A Study of Rolling Mechanism and Its Applications to Metallurgy Machinery[J]. Mech Mach Theory, 1996, 31(5) :705-716.
8GELEJI A. About the Roller Design of the Piercer[J]. International Journal of Refrigeration, 1996,18(5) :308-317.
9HANS. Position o{ the Seamless Steel Take on the World Market and in China[J]. Journal of Steel &Tube, 1998,13(4) : 23-33.
10[BAUMAL A E. Mathematrical Modeling of Piereer-Part I: Roller Modeling[J]. Journal of Steel & Tube, 2002,25 (3) :73- 75.

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3牛旭,双远华,王清华,王付杰.斜连轧工艺中轧辊组之间转速协调关系的探讨[J].钢管,2016,45(2):54-58. 被引量：3
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1赵志衡,于海平,李春峰,李忠.Magnetic pressure in electromagnetic tube forming with echelon coil[J].Journal of Harbin Institute of Technology(New Series),2008,15(5):598-601.
2LU Lu,WANG Fu-zhong,WANG Zhao-xu,ZHU Guang-ya,ZHANG Xing-xiang.Constitutive Relationship of New Steel 33Mn2V and Its Application in Piercing Process by FEM Simulation[J].Journal of Iron and Steel Research International,2011,18(7):47-52. 被引量：5
3Xu, DS,Li, D,Hu, ZQ.Substitution Behavior of Elements in CoZr-with Consideration of Lattice Relaxation[J].Journal of Materials Science & Technology,1999,15(4):366-368.
4CHEN Shao-hsien,SU Sen-chieh,JEHNG Wern-dare.Characterization of shear stresses in nickel-based superalloy Mar-M247 when orthogonal machining with coated carbide tools[J].Journal of Central South University,2014,21(3):862-869.
5李荣德,马冰,徐玉桥.Numerical model of solidification process in binary Al Fe alloy under centrifugal casting[J].中国有色金属学会会刊：英文版,2000,10(5):614-618.
6CHEN Song,LU Jiansheng,GUAN Weiming,ZHANG Kunhua,PAN Yong,TAN Zhilong,XIA Lu.Application of the Finite Element Method in the Glass Fiber Bushing Research[J].贵金属,2012,33(A01):59-65. 被引量：1
7王振伟,韩颖.125MN双动铝挤压机穿孔针的有限元分析[J].泰山乡镇企业职工大学学报,2009,16(2):22-23. 被引量：1
8Yuping Zhu,Yuanbing Wang,Guansuo Dui.CONSTITUTIVE MODELING OF ROLLED SHAPE MEMORY ALLOY SHEETS TAKING INTO ACCOUNT PRE-TEXTURE AND ANISOTROPIC HARDENING[J].Acta Mechanica Solida Sinica,2014,27(2):181-194. 被引量：1
9R. Fortunier, J.B. Leblond, J.M Bergheau 1.ENSM-SE, centre SMS, 158 cours Fauriel, 42023 - St-Etienne cedex 02, France 2.LMM, UMR 7607/CNRS/Université Paris VI, Tour 66, case 162, 4 place Jussieu, 75252 Paris cedex 05, France 3.LTDS, UMIR 5513, CNRS/E.A Numerical Model for Multiple Phase Transformations in Steels during Thermal Processes[J].Journal of Shanghai Jiaotong university(Science),2000,5(1):213-220.
10祝长春.A New Theoretical Model about Shear Stress in Magnetorheological Fluids with Small Shear Deformation[J].Journal of Wuhan University of Technology(Materials Science),2005,20(1):52-56.

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Simulation of Tube Forming Process in Mannesmann Mill 被引量：6

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