Fracture toughness of composite adherend adhesive joints under mixed mode I and III loading

Abstraet--A Compact Mixed Mode (CMM) fracture specimen was developed for fracture toughness determination. It is capable of determining the complete range of fracture toughness under pure mode I, pure mode II and mixed mode I and II loading conditions. Finite element analysis was conducted to provid

Adhesive strength shows temperature and rate dependencies that reflect viscoelastic properties of an adhesive. Similarly, a critical strain energy release rate is expected to show temperature and rate dependencies because deformation and fracture of the adhesive occur at the time of the measurement

models are proposed to predict the mixed-mode fracture of notched composite laminates subjected to uniaxial and multiaxial loading. The basic elastic, strength properties and a characteristic length are utilized by these models. The characteristic length is determined differently for the two models.

This paper deals with glass-fiber-reinforced vinylester composite laminates manufactured by resin infusion and bonded with an epoxy adhesive. The effect of joint configuration, adhesive layer thickness, defects, humidity, spew fillet, and adherend stiffness were investigated by means of tension test