P
Philippe Boisse
Researcher at University of Lyon
Publications - 263
Citations - 9093
Philippe Boisse is an academic researcher from University of Lyon. The author has contributed to research in topics: Finite element method & Forming processes. The author has an hindex of 50, co-authored 253 publications receiving 7805 citations. Previous affiliations of Philippe Boisse include University of L'Aquila & École Normale Supérieure.
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Journal ArticleDOI
Characterization of mechanical behavior of woven fabrics: Experimental methods and benchmark results
Jian Cao,Remko Akkerman,Philippe Boisse,Julie Chen,H.S. Cheng,E.F De Graaf,Jennifer L. Gorczyca,Philip G. Harrison,G. Hivet,J Launay,Wonoh Lee,Lu Liu,Stepan Vladimirovitch Lomov,Andrew C. Long,E. De Luycker,Fabrice Morestin,J. Padvoiskis,Xiongqi Peng,James A. Sherwood,Tz Stoilova,Xiaoming Tao,Ignace Verpoest,An Willems,J. Wiggers,Tongxi Yu,Bo Zhu +25 more
TL;DR: The trellis-frame (picture-frame) and bias-extension tests for both balanced and unbalanced fabrics have been conducted and compared through this collaborative effort.
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Simulation of wrinkling during textile composite reinforcement forming. Influence of tensile, in-plane shear and bending stiffnesses
TL;DR: In this paper, the simulation of textile composite reinforcement forming and wrinkling is based on a simplified form of virtual internal work defined according to tensions, in-plane shear and bending moments on a unit woven cell.
Journal ArticleDOI
Experimental analysis of the influence of tensions on in plane shear behaviour of woven composite reinforcements
TL;DR: In this paper, an experimental device is proposed which enables to measure the tension during a picture frame test, and it is shown that initial tensions modify the response in shearing, particularly in the first part of the shear curve.
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Numerical and experimental analyses of woven composite reinforcement forming using a hypoelastic behaviour: Application to the double dome benchmark
TL;DR: In this article, an algorithm based on a hypoelastic behaviour is proposed for the simulation of composite reinforcement forming processes, which can correctly trace the specific behaviour of the woven materials.
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Analyses of fabric tensile behaviour: determination of the biaxial tension–strain surfaces and their use in forming simulations
TL;DR: In this article, a mesoscopic study of the biaxial tensile surface of a unit woven cell is presented, and a dynamic explicit approach for the simulation of a fabric sheet forming process is presented.