Tran H. Quan, Henri Champliaud, Zhengkun Feng, Jamel Salem, and Dao T. My
[1] C. Wick, J.T. Benedict, and R.F. Veilleux, Tool and manufacturing engineers handbook, Fourth Edition Volume II, (UnitedStates of America: Society of Manufacturing Engineers, 1984). [2] E.P. DeGarmo, J.T. Black, and R.A. Kohser, Materials andprocesses in manufacturing (Canada: John Wiley & Sons,2002). [3] P. Couture, Simulation du roulage de toles fortes, Departmentof Mechanical Engineering, ´Ecole de technologie sup´erieure,Universit´e du Qu´ebec, Montreal, 2004. [4] C. Bouhelier, Le formage des toles fortes (France: CentreTechnique des Industries M´ecaniques, 1982). [5] M. Yang and S. Shima, Simulation of pyramid type three-rollbending process, International Journal of Mechanical Sciences,30(12), 1988, 877–886. [6] M. Hua, K. Baines, and I.M. Cole, Bending mechanisms, ex-perimental techniques and preliminary tests for the continuousfour-roll plate bending process, Journal of Material ProcessingTechnology, 2nd Asia Pacific Conf. Mat. Proc., 48(1–4), 1995,159–172. [7] M. Hua, K. Baines, and I.M. Cole, Continuous four-roll platebending: A production process for the manufacture of singleseamed tubes of large and medium diameters, InternationalJournal of Machine Tools and Manufacture, 39(6), 1999,905–935. [8] M. Hua, I.M. Cole, K. Baines, and K.P. Rao, A formulation fordetermining the single-pass mechanics of the continuous four-roll thin plate bending process, Journal of Materials ProcessingTechnology, Proceedings of the International Conference onMechanics of Solids and Materials Engineering, 67(1–3), 1997,189–194. [9] M. Hua and Y.H. Lin, Effect of strain hardening on thecontinuous four-roll plate edge bending process, Journal ofMaterials Processing Technology, 12, 1999, 89–90. [10] M. Hua, D.H. Sansome, and K. Baines, Mathematical modelingof the internal bending moment at the top roll contact inmulti-pass four-roll thin-plate bending, Journal of MaterialsProcessing Technology, 52(2–4), 1995, 425. [11] M. Hua, D.H. Sansome, K.P. Rao, and K. Baines, Continu-ous four-roll plate bending process: Its bending mechanismand influential parameters, Journal of Materials ProcessingTechnology, 45, 1994, 181–186. [12] M. Hua and Y.H. Lin, Large deflection analysis of elastoplasticplate in steady continuous four-roll-bending process, Interna-tional Journal of Mechanical Sciences, 41, 1999, 1461–1483. [13] W. Hu and Z.R. Wang, Theoretical analysis and experimentalstudy to support the development of a more valuable roll-bending process, International Journal of Machine Tools andManufacturing, 41(5), 2001, 731–747.61MATLAB [14] M.B. Bassett and W. Johnson, The bending of plate usinga three roll pyramid type plate bending machine, Journal ofStrain Analysis, I(5), 1966, 398–414. [15] N.E. Hansen and O. Jannerup, Modelling of elastic-plasticbending of beams using a roller bending machine, Journal ofEngineering for Industry, Transactions of the ASME, 101(3),1979, 304–310. [16] S. Roggendorff and J. Haeusler, Plate bending: Three rolls andfour rolls compared, Welding and Metal Fabrication, 47(6),1979, 353–357. [17] J. Zeng, Z. Liu, and H. Champliaud, Dynamic simulation andanalysis by finite element method for bending process of aconical tube and geometric inspection, Journal of MaterialsProcessing Technology, 198(1–3), 2008, 330–343. [18] Z. Feng, H. Champliaud, and T.M. Dao, Numerical study ofnon-kinematical conical bending with cylindrical rolls, Simula-tion Modelling Practice and Theory, 17(10), 2009, 1710–1722. [19] Z. Feng and H. Champliaud, Modeling and simulation ofasymmetrical three-roll bending process, Simulation ModellingPractice and Theory, 19(9), 2011, 1913–1917. [20] Matlab, 2011, version 7.12.0.365, release 2011a. [21] T.H. Quan, H. Champliaud, Z. Feng and T.M. Dao, FE simu-lation of heat assisted roll bending process for manufacturinglarge and thick high strength steel axisymmetric parts, Proc.IASTED Int. Conf. Modelling, Simulation, and Identification(MSI 2011), November 7–9, 2011, Pittsburgh, PA, USA. [22] Ansys, 2011, Ansys, version 13. [23] L. Zhang, Investigation of Lagrangian and Eulerian finiteelement methods for modeling the laser forming process, FiniteElements in Analysis and Design, 40, 2004, 383–405.
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