To accurately predict the Effective Thermal Conductivities (ETCs) of Three-Dimensional (3D)
braided composites, this work proposes a multi-scale and multi-step Mean-Field …

In this paper, a multiparametric solution of the stiffness properties of woven composites
involving several microstructure parameters is performed. For this purpose, non-intrusive …

The thermal properties of a porous medium have been emphasized for its essential value in
rock thermal engineering. Traditional theoretical and experimental methods on thermal …

The effects of general imperfect interphase/interface models on effective and local thermal
conductive responses of fiber reinforced-composites are investigated. A physical interphase …

The locally-exact homogenization theory (LEHT) with thermal conductive capability is
developed to investigate the morphological effect of carbon/graphite fibers on the effective …

Micromechanics investigations of composites with fiber-shaped reinforcement are
extensively applied in the engineering design and theoretical analysis of thermal …

This paper presents a novel micromechanical procedure for the linear elastic
homogenization of composites with periodic microstructures. The procedure is developed for …

Flexible composites of liquid metal droplets dispersed in compliant elastomers display
multifunctional properties that could be leveraged for applications in soft robotics and …

The present article investigates the failure mechanism of the composite laminates with
respect to a coupled thermo-mechanical effect. To this end, a novel coupled thermo …

In this paper, a novel microscopic modeling strategy is proposed to investigate the effective
thermal conductivity of composites with consideration of stochastic interface defects. To this …