Research of micromechanics model of short radom-oriented fibre reinforced composite materials;

Micromechanics Analysis of Aligned Discontinuous Carbon Fiber Reinforced PEEK Composite;

Micromechanics Study on Fracture Toughness of Composite Materials;

Prediction on thermal expansion coefficient of concrete based on meso-mechanics method;

The elastic moduli of fiber reinforced concrete were solved by using theory of meso-mechanics based on Mori-Tanaka and Eshelby equivalent inhomogeneous method.

Based on former meso-mechanics models,an efficient aggregates deposition method and an elements division criterion are developed in order to study the mechanical characteristic and the failure mechanism of concrete better.

Prediction of effective elastic properties of concrete based on mesomechanics;

A new calculation method combining mesomechanics with fracture mechanics was used to study this phenomenon.

Abstract In this paper the measurement methods based on optics,acoustics,magnetics and radiology are mentioned for research of mesomechanics.

Review on micro-mechanics studies of concrete;

This review contains a description of studies related to thermomechanical couplinganalysis of functionally graded material structure, where five principal topics are covered: advancesof the research method, crack problems under thermal loading, optimization design problems,micro-mechanics problems, and other problems.

A unified macro- and micro-mechanics constitutive model and its applications for fiber reinforced metal matrix composites are studied to satisfy needs of analyzing mechanical behaviors of composites and structures on macroscopic and microscopic scales.

To predict macroscopic effective elastic moduli of composites, a computational method is established based on micro mechanics finite element method.