On a trigonometric expression for the single-edge-notch specimen

A theoretical estimate is made of the effect of pin friction on values of the stress intensity factor forthe ASTM type single edge notch fracture toughness test specimen. It is shown that for a coefficient of friction of 0.2 between pins and specimen the stress intensity factor is reduced by approxi

A single edge notched geometry [SE(T)] with clamped ends is well suited for fracture toughness and fatigue crack growth testing of composites. Closed form expressions for the stress intensity factor and the compliance for an SE(T) with clamped ends were developed using finite element analysis. Using

The paper derives an expression for the plastic component, JoP, of the deformation J integral, JD, for the double edge notch tension configuration. Jt~P is expressed in terms of the energy and complementary energy integrals via eta factors, whose values are obtained by ensuring that Jop assumes the