Mechanical Engineering, LaMCoS, INSA de Lyon, University of Lyon, Villeurbanne, France
Selected Publications (For more see the link, Prof. Philippe Boisse):
Boisse P, Danel JL, Gelln JC. A simple isoparametric three-node shell finite element. Computers and Structures 1992;
44(6):1263-1273.
Boisse P, Daniel JL, Gelin JC. A Co three-node shell element for non-linear structural analysis. International Journal
for Numerical Methods in Engineering 1994; 37:2339-2364.
Philippe Boisse, A. Hakim Cherouat, Jean Claude Gelin, and Hamid Sabhi. Experimental study and finite element simulation of a glass fiber fabric shaping process. Polymer composites, 16(1):83–95, 1995.
P. Boisse, J.C. Gelin, J.L. Daniel. Computation of thin structures at large strains and large rotations using a simple Co isoparametric three-node shell element. Comput. Struct., 58, 249–261, 1996.
M.L. Boubakar, P. Boisse, J.C. Gelin. Numerical implementation of orthotropic plasticity for sheet-metal forming analysis. J. Mat. Proc. Tech., 65, 143–152, 1997.
Ganapathi M, Boisse P and Solaut D (1999), Non-linear dynamic stability analysis of composite laminates under periodic in-plane loads, International Journal of Numerical Methods in Engineering, 46, 943-956.
A. Gasser, P. Boisse and S. Hanklar. Mechanical behaviour of dry fabric reinforcements. 3D simulations versus
biaxial tests. Computational Materials Science. 17: 7–20, 2000
Ganapathi M, Patel BP, Boisse P and Touratier M (2000), Non-linear dynamic stability characteristics of elastic plates subjected to periodic in-plane load, International Journal of Non-linear Mechanics, 35(3), 467-480.
Philippe Boisse, K. Buet, Alain Gasser, and Jean Launay. Meso/macro-mechanical behaviour of textile reinforcements for thin composites. Composites Science and Technology, 61(3):395–401, 2001.
Philippe Boisse, Bassem Zouari, and Alain Gasser. A mesoscopic approach for the simulation of woven fibre composite forming. Composites Science and Technology, 65(3-4):429–436, 2005.
Bassem Zouari, Jean-Luc Daniel, and Philippe Boisse. A woven reinforcement forming simulation method. Influence of the shear stiffness. Computers & Structures, 84(5-6):351–363, 2006.
D. Soulat, A. Cheruet, P. Boisse. Simulation of continuous fibre reinforced thermoplastic forming using a shell finite element with transverse stress. Comput. Struct., 84, 888–903, 2006.
Philippe Boisse, Bassem Zouari, and Jean-Luc Daniel. Importance of in-plane shear rigidity in finite element analyses of woven fabric composite preforming. Composites Part A: Applied Science and Manufacturing, 37(12):2201–2212, 2006.
Boisse P. Finite element analysis of composite forming. In: Long AC, editor. Composite forming technologies. Woodhead Publishing Limited, 2007.
Hamila, N., & Boisse, P. (2007). A meso–macro three node finite element for draping of textile composite preforms. Applied Composite Materials, 14(4), 235-250.
Philippe Boisse, Nahiène Hamila, F. Helenon, B. Hagege, and Jian Cao. Different approaches for woven composite reinforcement forming simulation. International Journal of Material Forming, 1(1):21–29, 2008.
] Wonoh Lee, J. Padvoiskis, Jian Cao, Emmanuel de Luycker, Philippe Boisse, Fabrice Morestin, J. Chen, and James Sherwood. Bias-extension of woven composite fabrics. International Journal of Material Forming, 1(SUPPL. 1):895–898, 2008
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