Analytical Expression for Fracture Profile in Viscoelastic Crack Propagation (2312.07916v1)

Abstract: We derive an analytical expression for the strain field, including fracture profile, during steady-state crack propagation in viscoelastic solids. This expression, featuring the hypergeometric function, is obtained by exactly solving a model that incorporates the standard linear solid (i.e., three-element Zener) model. We find three regions in the fracture profile, distinguished by power-law exponents that evolve with distance from the crack tip; this explains why crack tips become sharper in rubbers and gels as the crack-propagation velocity increases. We also provide a solid foundation for de Gennes' viscoelastic trumpet, previously based only on a scaling argument. These insights should help prevent catastrophic failure of polymer materials triggered by velocity jumps.