Effect of Flaws in the Adhering Interface on the Strength of Adhesive-bonded Butt Joints

Abstract

Abstract This paper presents the strength of metal-to-metal bonded joints with a flaw in the interface between the adhesive layer and the adhering surface of adherend. The test specimens of butt joints are prepared by bonding two thin-wall metal tubes. The materials are carbon steel, aluminum alloy, brass and copper. The adhesive is epoxy resin. The tensile and shear strength of the joints are experimentally determined by subjecting the specimens to axial load and torsion for various flaw sizes and thickness of adhesive layers. Linear elastic fracture mechanics is applied to the experimental results. The stress intensity factors for a layered composite with a flaw in the interface are numerically calculated in terms of flaw size and loading by using Erdogan's formulas. The fracture stresses of joints with a flaw are predicted at the critical values of the stress intensity factors. The strength of joints without a flaw is also correlated with the stress intensity factors by use of a concept of “effective flaw size”.