AN EXPERIMENTAL AND COMPUTATIONAL INVESTIGATION OF CRACK-GROWTH INITIATION IN 3-POINT BEND FRACTURE SPECIMENS

An experimental and computational study of HY-100 steel three-point be nd fracture specimens was performed. Two specimens were considered in the experimental portion of the study, differing with respect to thick ness and the presence of side grooves. Plane stress and plane strain f inite element analyses of the specimens were conducted to assess the r elative role of constraint on load vs crack opening displacement respo nse and crack growth initiation. A critical value of the strain energy density associated with local material fracture was used to predict t he onset of crack growth. The experimental responses were bounded by t he predicted plane stress and plane strain load vs crack mouth opening responses. These results also provided an indication of the extent to which the side grooves in the thinner specimen provided more constrai nt than the thickness of the specimen without side grooves. A comparis on with a previous investigation on an HY-100 compact fracture specime n suggests similarities concerning the interaction between material no nlinearity and specimen response nonlinearity.