Sickle-shaped crack in a round bar under complex Mode I loading

Abstract

A sickle-shaped surface crack in a round bar under complex Mode I loading is considered. First, the stress-intensity factor (SIF) along the front of the flaw is numerically determined for five elementary Mode I stress distributions (constant, linear, quadratic, cubic and quartic) directly applied on the crack faces. The finite element method and linear elastic fracture mechanics concepts are employed. Then, a numerical procedure to calculate approximate values of SIF for a complex Mode I stress distribution on the crack faces is proposed based on both the power series expansion of the function describing such a stress distribution and the superposition principle. In order to validate the results obtained through the above procedure, a comparison with numerical data available in the literature is made. © 2007 The Authors. Journal Compilation © 2007 Blackwell Publishing Ltd.