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A Multiscale Two-Way Thermomechanically Coupled Micromechanics Analysis of the Impact Response of Thermo-Elastic-Viscoplastic Composites
Abstract
A dynamic multiscale micromechanics model that accounts for two-way thermomechanical coupling in composites is presented. It predicts not only the standard deformation that results from a temperature change, but also the temperature change that results from mechanical deformation. In addition, viscoplastic material behavior is included at the scale of the fiber/matrix constituents in a local High-Fidelity Generalized Method of Cells analysis, which is conducted at each material point of a global analysis on a composite specimen. The global analysis of the composite considers time-dependent thermomechanical boundary conditions capable of simulating impact loading while solving the coupled transient thermal problem and the dynamic mechanical problem. Effective thermoelastic and physical properties, as well as homogenized inelastic strains are provided to the global model from the local scale. The multiscale model was employed to examine the impact response of a carbon/epoxy composite with emphasis on the temperature changes and inelastic strains induced by the impact loading.
DOI
10.12783/asc33/26005
10.12783/asc33/26005
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