Statistics of fracture of composite materials under multiaxial loading

models are proposed to predict the mixed-mode fracture of notched composite laminates subjected to uniaxial and multiaxial loading. The basic elastic, strength properties and a characteristic length are utilized by these models. The characteristic length is determined differently for the two models.

Crack growth in porous and viscoelastic materials has been studied. The decrease of strength of hardened cement paste and concrete under high sustained load can be described with this theoretical approach. Creep as well as time dependence of elastic modulus and strength enter the calculation. Stress

A common thread joining many engineered materials used dominantly under compressive loading is the presence of a high modulus secondary phase, either fiber or particulate, embedded within a lower modulus matrix phase. To improve their toughness, a frictional or a less-than-coherent interface is stri

## Abstract Dental composites are subjected to extreme chemical and mechanical conditions in the oral environment, contributing to the degradation and ultimate failure of the material __in vivo__. The objective of this study is to validate an alternative method of mechanically loading dental compos

A thorough analysis of fatigue of composite laminates under multiaxial loading is presented. A large body of experimental data taken from the literature is examined to delineate the influence on the fatigue strength of factors such as biaxiality ratios and off-axis and out-of-phase angles. The data