Dr. Farid ABED-MERAIM

Journal of Multidisciplinary Research and Reviews

Department of Microstructure Analysis and Mechanics of Materials

Name: Dr. Farid ABED-MERAIM

Educational Qualification: PhD

Designation: Professor

Department: Department of Microstructure Analysis and Mechanics of Materials

University: Arts et Métiers ParisTech

Email: farid.abed-meraim@ensam.eu

Research Interests: Theoretical and Applied Mechanics, Non-Linear Mechanics, Materials Science

Biography: Farid Abed-Meraim received his Ph.D. degree in theoretical and applied mechanics from École Polytechnique, Paris, in 1999. From 1999 to 2000, he held a Postdoctoral position at the LMT laboratory, Ecole Normale Supérieure de Cachan. He then joined Arts et Métiers ParisTech, Metz Campus, in 2000, where he works currently as a Professor at the LEM3 laboratory. From 2006 to 2008, he worked as a CNRS full-time Research Associate at the LaMCoS laboratory of INSA, Lyon. He also was a Visiting Professor at Eindhoven Technical University (Department of Mechanical Engineering) from 2010 to 2011. His main current research interests include structural stability (bifurcation) analysis of dissipative systems (elastoplastic, viscoelastic, and viscoplastic), material instability modeling in relation to the prediction of formability of metal sheets, and multiscale approaches (micromechanics, crystal plasticity, scale-transition schemes) as well as finite element technology (solid-shell formulations).

1. ABED-MERAIM F, NGUYEN QS. [2007] A quasi-static stability analysis for Biot’s equation and standard dissipative systems. European Journal of Mechanics - A/Solids, 26 (3), 383–393
2. HADDAG B, BALAN T, ABED-MERAIM F. [2007] Investigation of advanced strain-path dependent material models for sheet metal forming simulations. International Journal of Plasticity, 23 (6), 951–979
3. ABED-MERAIM F, COMBESCURE A. [2007] A physically stabilized and locking-free formulation of the (SHB8PS) solid– shell element. European Journal of Computational Mechanics, 16 (8), 1037–1072
4. HADDAG B, ABED-MERAIM F, BALAN T. [2007] Finite element prediction of sheet forming defects using elastic-plastic, damage and localization models. American Institute of Physics Conf. Proc., 908, 227–232
5. FRANZ G, ABED-MERAIM F, BEN ZINEB T, LEMOINE X, BERVEILLER M. [2007] A multiscale model based on intragranular microstructure – Prediction of dislocation patterns at the microscopic scale. Am. Ins. Phy. Conf. Proc., 907, 47–52
6. FRANZ G, ABED-MERAIM F, BEN ZINEB T, LEMOINE X, BERVEILLER M. [2007] A multiscale model based on intragranular microstructure: Influence of grain-scale substructure on macroscopic behaviour of an IF-steel during complex load paths. American Institute of Physics Conf. Proc., 908, 1345–1350
7. HADDAG B, ABED-MERAIM F, BALAN T. [2008] Strain localization and damage prediction during sheet metal forming. International Journal of Material Forming, 1 (1), 229–232
8. ALTMEYER G, ABED-MERAIM F, BALAN T. [2008] Comparison of forming limit diagrams predicted with different localization criteria. Steel Research International, 79 (1), 24–31
9. FRANZ G, ABED-MERAIM F, LORRAIN JP, BEN ZINEB T, LEMOINE X, BERVEILLER M. [2009] Ellipticity loss analysis for tangent moduli deduced from a large strain elastic–plastic self-consistent model. Inter. Journal of Plasticity, 25, 205–238
10. FRANZ G, ABED-MERAIM F, BEN ZINEB T, LEMOINE X, BERVEILLER M. [2009] Strain localization analysis using a multiscale model. Computational Materials Science, 45 (3), 768–773
11. ALTMEYER G, ABED-MERAIM F, BALAN T. [2009] Formability prediction of thin metal sheets using various localization criteria. International Journal of Material Forming, 2 (1), 423–426
12. HADDAG B, ABED-MERAIM F, BALAN T. [2009] Strain localization analysis using a large deformation anisotropic elastic–plastic model coupled with damage. International Journal of Plasticity, 25 (10), 1970–1996
13. FRANZ G, ABED-MERAIM F, BEN ZINEB T, LEMOINE X, BERVEILLER M. [2009] Role of intragranular microstructure development in the macroscopic behavior of multiphase steels in the context of changing strain paths. Materials Science and Engineering A, 517 (1-2), 300–311
14. ABED-MERAIM F, COMBESCURE A. [2009] An improved assumed strain solid–shell element formulation with physical stabilization for geometric nonlinear applications and elastic-plastic stability analysis. International Journal for Numerical Methods in Engineering, 80 (13), 1640-1686
15. TRINH VD, ABED-MERAIM F, COMBESCURE A. [2009] A new prismatic solid–shell element ‘SHB6’: assumed-strain formulation and evaluation on benchmark problems. Vietnam Journal of Mechanics, 31 (4), 279–292
16. ALTMEYER G, ABED-MERAIM F, BALAN T. [2010] Investigation of some localization criteria and their relevance to prediction of forming limit diagrams. Steel Research International, 81 (9), 1364–1367
17. CARVALHO-RESENDE T, BALAN T, ABED-MERAIM F, BOUVIER S, SALBLIN S.-S. [2010] Application of a dislocation based model for Interstitial Free (IF) steels to typical stamping simulations. American Institute of Physics Conf. Proc., 1252, 1339–1346
18. RACZ S-G, KHAN S, CHALAL H, ABED-MERAIM F, BALAN T. [2010] Prediction of springback after draw-bending test using different material models. American Institute of Physics Conf. Proc., 1315, 419–424
19. ABED-MERAIM F, COMBESCURE A. [2011] New prismatic solid–shell element: assumed strain formulation and hourglass mode analysis. Structural Engineering and Mechanics, 37 (2), 253–256
20. FRANZ G, ABED-MERAIM F, BEN ZINEB T, LEMOINE X, BERVEILLER M. [2011] Impact of intragranular microstructure development on ductility limits of multiphase steels. Materials Science and Engineering A, 528 (10), 3777–3785
21. KILLPACK M, ABED-MERAIM F. [2011] Limit-point buckling analyses using solid, shell and solid–shell elements. Journal of Mechanical Science and Technology, 25 (5), 1105–1117
22. LEAHU-ALUAS I, ABED-MERAIM F. [2011] A proposed set of popular limit-point buckling benchmark problems. Structural Engineering and Mechanics, 38 (6), 767–802
23. TRINH VD, ABED-MERAIM F, COMBESCURE A. [2011] A new assumed strain solid–shell formulation ‘‘SHB6’’ for the sixnode prismatic finite element. Journal of Mechanical Science and Technology, 25 (9), 2345–2364
24. SALAHOUELHADJ A, ABED-MERAIM F, CHALAL H, BALAN T. [2011] On the implementation of the continuum shell finite element SHB8PS and application to sheet forming simulation. American Institute of Physics Conf. Proc., 1353, 1203-1208
25. SALAHOUELHADJ A, ABED-MERAIM F, CHALAL H, BALAN T. [2012] Application of the continuum shell finite element SHB8PS to sheet forming simulation using an extended large strain anisotropic elastic–plastic formulation. Archive of Applied Mechanics, 82, 1269-1290

Serial no:IIEBM0579

Download Certificate

Dr. Farid ABED-MERAIM

Journal of Multidisciplinary Research and Reviews

Department of Microstructure Analysis and Mechanics of Materials

Guidelines

Quick Links

Subscribe