Tran H. Quan, Henri Champliaud, Zhengkun Feng, Jamel Salem, and Dao T. My


  1. [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. [2] E.P. DeGarmo, J.T. Black, and R.A. Kohser, Materials andprocesses in manufacturing (Canada: John Wiley & Sons,2002).
  3. [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. [4] C. Bouhelier, Le formage des toles fortes (France: CentreTechnique des Industries M´ecaniques, 1982).
  5. [5] M. Yang and S. Shima, Simulation of pyramid type three-rollbending process, International Journal of Mechanical Sciences,30(12), 1988, 877–886.
  6. [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. [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. [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. [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. [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. [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. [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. [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. [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. [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. [16] S. Roggendorff and J. Haeusler, Plate bending: Three rolls andfour rolls compared, Welding and Metal Fabrication, 47(6),1979, 353–357.
  17. [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. [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. [19] Z. Feng and H. Champliaud, Modeling and simulation ofasymmetrical three-roll bending process, Simulation ModellingPractice and Theory, 19(9), 2011, 1913–1917.
  20. [20] Matlab, 2011, version, release 2011a.
  21. [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. [22] Ansys, 2011, Ansys, version 13.
  23. [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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