The objective of this contribution is to present a unifying review on strain-driven
computational homogenization at finite strains, thereby elaborating on computational …

The numerous approaches used in micromechanics can be classified into four broad
categories: perturbation methods, self-consistent methods of truncation of a hierarchy …

Because of their ultra small, nanometer scale size and low density, the surface area to mass
ratio (specific area) of carbon nanotubes (CNTs) is extremely large. Therefore, in a nanotube …

Based on the general micromechanical framework proposed in a companion paper,
effective elastic moduli of two-phase composites containing randomly dispersed spherical …

Establishing structure–property relationships for nanoparticle/polymer composites is a
fundamental task for a reliable design of such new systems. A micromechanical analytical …

A multi-scale micromechanical model is proposed to predict the damage degree of hybrid
fiber-reinforced concrete under or after high temperatures. The thermal degradation of …

Inter-particle interaction is one of the major reinforcement mechanisms for aggregates in
asphalt mixture, which is a classic example of high-volume fraction particulate composites …

Based on the framework of Ju and Chen (Ju, JW, Chen, TM, 1994. J. Engng. Mater. Tech.
ASME 116, 310–318) and Ju and Tseng (Ju, JW, Tseng, KH, 1996. Int. J. Solids Struct. 33 …

In this paper, a new higher order shear deformation model is developed for static and free
vibration analysis of functionally graded beams with considering porosities that may possibly …

Explicit schemes of Mori-Tanaka and Kuster-Toksöz for estimating elastic properties of
multiphase composites are compared and contrasted. Both methods are known to have a …