KII solutions for an edge-cracked strip

Stress intensity factor solutions for very shallow and very deep cracks in an edge-cracked strip are discussed. Expressions are presented for both cases which appear to be more accurate and easier to apply than those in the literature. Based on the treatment of these two limiting cases an expression

The problem of determining the distribution of stresses and the deformations of an orthotropic strip, damaged by a crack normal to the edges of the strip, is investigated. The strip is deformed by pressure applied to the faces of the crack. Two types of boundary conditions are considered: (i) the bo

New solutions for stresses due to a pair of horizontal or vertical forces acting symmetrically on the surface of a strip are obtained and shown to be easier to evaluate than those that are available in the literature. The displacements and strains on the surface due to a normal stress distribution o

AI&met-A plate with a crack, repaired by an adhesively bonded overlay of a finite strip, is investigated. In the analysis model it is assumed that due to high stress concentration an internal debonding between the strip and the plate may generate from the crack surfaces or, in other words, it is ass

AWract-ne problem of dete~ning the stress ~s~b~tion in an infinite strip of finite width with symmetrically located edge cracks is considered. The crack probIem is reduced to finding the solution of a Fredholm integral equation of the second kind. The numerical solution when the applied pressure is