Reliability analysis and micromechanics: A coupled approach for composite failure prediction |
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Authors: | H. Welemane H. Dehmous |
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Affiliation: | aUniversité de Toulouse; INP/ENIT; LGP; 47, avenue d'Azereix, F-65013 Tarbes, France;bUniversité de M'sila, BP 166, 28000 M'sila, Algerie |
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Abstract: | This work aims at associating two classical approaches for the design of composite materials: first, reliability methods that allow to account for the various uncertainties involved in the composite materials behaviour and lead to a rational estimation of their reliability level; on the other hand, micromechanics that derive macroscopic constitutive laws from micromechanical features. Such approach relies on the introduction of variabilities defined at the microscale and on the investigation of their consequences on the material macroscopic response through an homogenization scheme. Precisely, we propose here a systematic treatment of variability which involves a strong link between micro- and macroscales and provides a more exhaustive analysis of the influence of uncertainties. The paper intends to explain the main steps of such coupling and demonstrate its interests for material engineering, especially for constitutive modelling and composite materials optimization. An application case is developed throughout on the failure of unidirectional carbon fibre-reinforced composites with a comparative analysis between experimental data and simulation results. |
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Keywords: | Reliability Micromechanics Composite materials Failure |
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