Application of a SPH Coupled FEM Method for Simulation of Trimming of Aluminum Autobody Sheet

1. Achouri M., Gildemyn E., Germain G., Dal Santo P., Potiron A. (2014), Influence of the edge rounding process on the behavior of blanked parts: numerical predictions with experimental correlation, International Journal of Advanced Manufacturing Technology, 71, 1019-1032.10.1007/s00170-013-5522-8Search in Google Scholar

2. Bagci E. (2011), 3-D numerical analysis of orthogonal cuttingprocess via mesh-free method, International Journal of Physical Sciences, 6, 1267-1282.Search in Google Scholar

3. Das R., Cleary PW. (2007), Modeling plastic deformation andthermal response in welding using smoothed particle hydrodynamics, 16th Australasian fluid mechanics conference, 2–7 December 2007.Search in Google Scholar

4. Domski J., Katzer J. (2013), Load-deflection characteristic of fibre concrete based on waste ceramic aggregate, Annual Set The Environment Protection 15, 213-230.Search in Google Scholar

5. Gąsiorek D. (2013), The application of the smoothed particle hydrodynamics (SPH) method and the experimental verification of cutting of sheet metal bundles using a guillotine, Journal of Theoretical and Applied Mechanics, 51 (4), 1053-1065.Search in Google Scholar

6. Gingold RA., Monaghan JJ. (1977), Smooth particle hydrodynamics: theory and application to non-spherical stars, Monthly Notices of the Royal Astronomical Society, 181, 375-389.10.1093/mnras/181.3.375Search in Google Scholar

7. Golovashchenko S.F. (2006), A study on trimming of aluminum autobody sheet and development of a new robust process eliminating burrs and slivers, International Journal of Mechanical Sciences, 48, 1384-1400.10.1016/j.ijmecsci.2006.07.007Search in Google Scholar

8. Golovashchenko S.F. (2007), Analysis of Trimming of Aluminum Closure Panels, JMEPEG, 16, 213-219.10.1007/s11665-007-9034-2Search in Google Scholar

9. Heisel U., Zaloga W., Krivoruchko D., Storchak M., Goloborodko L. (2013), Modelling of orthogonal cutting processes with the methodof smoothed particle hydrodynamics, Production Engineering Research and Development, 7, 639-645.10.1007/s11740-013-0484-0Search in Google Scholar

10. Hilditch T.B., Hodgson P.D. (2005a), Development of the sheared edge in the trimming of steel and light metal sheet, Part 1 - Experimental observations, Journal of Materials Processing Technology, 169, 184-191.10.1016/j.jmatprotec.2005.02.266Search in Google Scholar

11. Hilditch T.B., Hodgson P.D. (2005b), Development of the sheared edge in the trimming of steel and light metal sheet, Part 2 – Mechanisms and modeling, Journal of Materials Processing Technology, 169, 192-198.10.1016/j.jmatprotec.2005.02.267Search in Google Scholar

12. Ilinich A.M., Golovashchenko S.F., Smith L.M. (2011), Material anisotropy and trimming method effects on total elongation in DP500 sheet steel, Journal of Materials Processing Technology, 211, 441-449.10.1016/j.jmatprotec.2010.10.014Search in Google Scholar

13. Jianming W., Feihong L., Feng Y., Gang Z. (2011), Shot peening simulation based on SPH method, International Journal of Advanced Manufacturing Technology, 56, 571-578.10.1007/s00170-011-3193-xSearch in Google Scholar

14. Johnson G.R., Cook W.H. (1985), Fracture characteristics of three metals subjected to various strains, strain rates, temperatures and pressures, Engineering Fracture Mechanics, 21(1), 31-48.10.1016/0013-7944(85)90052-9Search in Google Scholar

15. Kozicki J., Tejchman J. (2007), Experimental investigations of strain localization in concrete using digital image correlation (DIC) technique, Archives of Hydro-Engineering and Environmental Mechanics, 54(1), 3-24.Search in Google Scholar

16. Li M. (2000), Micromechanisms of deformation and fracture in shearing aluminum alloy sheet, International Journal of Mechanical Sciences, 42, 907-923.10.1016/S0020-7403(99)00034-XSearch in Google Scholar

17. Xi Y., Bermingham M., Wang G., Dargusch M. (2014), SPH/FE modeling of cutting force and chip formation during thermally assisted machining of Ti6Al4V alloy, Computational Materials Science, 84, 188-197.10.1016/j.commatsci.2013.12.018Search in Google Scholar