Fracture toughness of cementitious composites

Fracture toughness of unidirectional ferromagnetic fiber reinforced ferroelectric matrix composite was studied based on the energy approach in a view of large scale. A half space edge crack with crack face perpendicular to the external fields was considered. The energy release rate was derived expli

The fracture toughness properties of two interpenetrating phase composites (IPCs)-a bronze-inÿltrated porous 420 stainless steel and a polymer resin-impregnated porous 316L stainless steel-have been measured using ASTM Standard E 813-89. Both IPCs exhibited stable crack growth at all volume fraction

A new statistical micromechanical model of multiple cracking is proposed in which a general expression of the fiber bridging stress laws in the crack plane is established. In this model, the random distribution properties of fibers are considered. And the Weibull function is adopted to represent the

A new equation for the energy release rate for a double cantilever beam specimen is proposed within the framework of the higher order shear deformable plate theory. The interlaminar fracture toughnesses (IFTs) found using the present theory, the ASTM round robin test method and the acoustic emission