Shear band characterization of mixed mode I and II fully plastic crack growth

Two novel techniques and evaluation procedures for the fracture mechanical characterization of fibre reinforced plastics (FRPs) in the intralaminar mode I (crack opening mode) and mode II (shear mode) based on the fracture energy concept are presented. The splitting (mode I) as well as the punch-thr

The small scale yielding for mixed mode I and II plane stress crack problems in elastic perfectly-plastic solids is analysed by considering the stress field near the crack line. By expanding the stresses near the crack line and matching the stress field in the plastic zone with the elastic dominant

A boundary element method is developed for fracture analysis of gradient elastic planar solids under static loading. A simple version of Mindlin's general theory of gradient elastic materials is employed and the two required boundary integral equations, one for the displacement vector and the other

In this work\ the e}ect of constraint on hole growth near a notch tip in a ductile material under mode I and mixed mode loading "involving modes I and II# is investigated[ To this end\ a 1!D plane strain\ modi\_ed boundary layer formulation is employed in which the mixed mode elastic KÐT \_eld is pr

Almost all load bearing components usually experience variable amplitude loading (VAL) rather than constant amplitude loading (CAL) during their service lives. A single overload cycle introduced in a constant amplitude fatigue loading retards fatigue crack growth and increases residual fatigue life.

Using specimens of western hemlock with various depths, double cantilever beam and three-point bend end-notched flexure tests were conducted to obtain the mode I and mode II fracture toughness. To correct the deflection caused by shearing and crack tip deformation, four conventional data reduction m