Correcting for nonlinear effects in fracture toughness testing

A general defioition of fracture toughness, designated by 6, is developed which is appropriate to situations of subcritical crack growth and/or kvge-scalc crack border plastic yield. The theoretical basis as well as comparisons with other proposed measures of fracture toughness are also discussed. A

Ahstraet--A modified criterion is developed on an empirical basis for the minimum thickness Brain of a plane strain fracture toughness test specimen: B.,. = 400 g~o Ecq. where K~, is the plane strain fracture toughness, E is the Young's modulus and ~r~, is the yield stress of the material. The modi

The scatter distribution of the fracture toughness of macroscopically homogeneous, brittle materials is usually described by a cumulative failure probability distribution function, which is dependent on the material, the specimen-size and the testing-temperature. In this work, a master curve is deri

Fracture toughness testing in the transition region often causes ductile tearing to precede cleavage fracture. The effect of ductile tearing on the fracture probability has in recent years become a subject of great interest. Briickner and Munz have developed a Weibull statistics based model to descr

hharaet--A compact form of C-shape fracture toughness test specimen is investigated. The specimen can be taken from thick-walled cylinders with greater material economy than the proposed ASTM C-shape, but is more difficult to manufacture. The K-calibration is identical with the ASTM compact tension