A NUMERICAL SIMULATION OF INCREMENTAL FORMING PROCESS FOR POLYMER SHEETS

Le V. Sy and Nguyen T. Nam

References

1. [1] J. Jeswiet, F. Micari, G. Hirt, A. Bramley, J. Duflou, andJ. Allwood, Asymmetric single point incremental forming ofsheet metal, CIRP Annals, 54, 2005, 623–649.
2. [2] Van Sy. Le, A. Ghiotti, and G. Lucchetta, Preliminary studieson single point incremental forming for thermoplastic materials,International Journal of Material Forming, 1(1), 2008, 1179–1182.
3. [3] V. Franzen, L. Kwiatkowski, P.A.F. Martins, and A.E. Tekkaya,Single point incremental forming of PVC, Journal of MaterialsProcessing Technology, 209(1), 2009, 462–469.
4. [4] M.B. Silva, L.M. Alves, and P.A.F. Martins, Single point in-cremental forming of PVC: Experimental findings and theoret-ical interpretation, European Journal of Mechanics, 29, 2010,557–566.
5. [5] P.A.F. Martins, L. Kwiatkowski, V. Franzen, A.E. Tekkaya,and M. Kleiner, Single point incremental forming of polymers,CIRP Annals – Manufacturing Technology, 58(1), 2009,229–232.
6. [6] T.A. Marques, M.B. Silva, and P.A.F. Martins, On the potentialof single point incremental forming of sheet polymer parts,International Journal of Advanced Manufacturing Technology,60, 2012, 75–86.
7. [7] E. Krempl, From the standard linear solid to the viscoelasticitytheory based on overstress, Computational Mechanics, 2, 1995,1679–1684.
8. [8] K. Ho and E. Krempl, Extension of the viscoelasticity theorybased on overstress (VBO) o capture non-standard rate depen-dence in solids. International Journal of Plasticity, 18, 2000,851–872.
9. [9] T.L. Sham, Implicit (backward Euler) integration method fora version of TVBO with constant isotropic stress and withoutstatic recovers, MML report no 1994-S2.
10. [10] S. Gomma and T.-L. Sham, Finite element formulation of finitedeformation, isotropic viscoplasticity theory based on overstress(FVBO), International Journal of Solids and Structures, 41,2004, 3607–3624.
11. [11] O.T. Bruhns, H. Xiao, and A. Meyers, New results for the spinof the Eulerian triad and the logarithmic spin and rate, ActaMechanica, 115, 2002, 95–109.
12. [12] H. Schwerdtfeger, Introduction to linear algebra and the theoryof matrices (Groningen-Holland: P. Nordhoff, 1950).
13. [13] http://www.engineeringtoolbox.com/friction-coefficients-d_778.html, March 27th, 2012

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• Abstract
• DOI: 10.2316/Journal.205.2012.4.205-5752
• From Journal (205) International Journal of Modelling and Simulation - 2012

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