With the aid of the micro-mechanical model of woven fabric that characterizes the special properties of woven fabric due to its micro-weaving structure, the draping and buckling of a square woven fabric sheet spreading on a round table were simulated by finite element .

A micromechanics model is presented based on the hypothesis of periodicity in composite microstructure.

Based on the microstructure periodicity hypothesis,a micromechanics model is established,and the microscopic displacement field of matrix and reinforcement are simulated by using higher order polynomial function of the model.

The theories of mechanics of composite materials and poromechanics were used to develop a micromechanics model capable of simulating the effective elastic properties of Portland cement pastes.

A micromechanical model of short-fiber-reinforced elastomer matrix composite (SFRE) including the fiber, matrix and fiber-matrix interphase was established, in which main microstructural parameters, such as short fiber aspect radio, volume content and mechanic performances of main components, were taken into consideration, and the interphase was regard as a time-dependent viscoelastic component.

A meso mechanical model is used to describe the stiffness reduction of the laminates due to fibre breakage.

A meso mechanical model is developed to describe the longitudinal stiffness reduction and thermo dilatation variation of the composites caused by fiber breaking or fiber peeling o.