Plane-stress Crack-tip Fields for Pressure-sensitive Dilatant Materials
نویسنده
چکیده
Abstraet--In this paper we present plane-stress crack-tip stress and strain fields for pressure-sensitive dilatant materials. A hydrostatic stress-dependent yield criterion and the normality flow rule are used to account for pressure-sensitive yielding and plastic dilatancy. The material hardening response is specified by a power-law relation. The plane-stress mode I singular fields are found in a separable form similar to the HRR fields (Hutchinson, J. Mech. Phys. Solids 16, 13-31 and 337-347, 1968; Rice and Rosengren, J. Mech. Phys. Solids 16, l-12, 1968). ‘Ihe angular variations of the fields depend on the material hardening exponent and the pressure sensitivity parameter. Our low-hardening solutions for d&rent degrees of pressure sensitivity agree well with the corresponding perfectly plastic solutions. An important aspect of the eRecta of pressure.-sensitive yielding and plastic dilatancy on crack-tip fields is the lowering of the opening stress and the hydrostatic stress directly ahead of the crack tip. This effect, similar to that under plane-strain conditions (Li and Pan, to appear in J. Appl. Mech. 1989), has implications in the material toughening observed in some ceramic and polymeric composites.
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