Fracture energy and fracture toughness of concrete

Abstract

The stress intensity factor for a specimen used for fracture toughness testing of cementitious materials was obtained by the finite element method using isoparametric representations and two energy approaches. A range of specimen geometrise were considered and the critical strain energy release rate G_c, and critical value of an energy integral J_c were evaluated using the failure loads obtained from laboratory tests. For linear elastic conditions G_c is equivalent to J_c, and both quantities are regarded as the energy required to produce unit extension of the pre-existing crack. It is found that the fracture energy and the fracture toughness are independent of the specimen geometry. The fracture energy G_c of the concrete employed in the tests is approximately 16 N m/m². This corresponds to a fracture toughness K_c of 0·7 MN/m3/2, which is 40% greater than that reported in an earlier paper.