Development of a finite element strategy for the modeling of thermo-elastic nano-reinforced materials
Abstract
For nanoreinforced materials, the inclusion surface/matrix volume ratio is important. Therefore, matrix/reinforcement interface behavior has a major influence on the local and effective material behaviour. Focusing on thermo-elasticity, a numerical approach based on the finite element method is developed for nanomaterials with imperfect coherent interface modeling. For the numerical analysis, a convergence study is performed for multiple homogenization schemes with different boundary conditions.
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