Abstract
The stresses of band adhesive butt joints, in which the interfaces were partially bonded, were analyzed using a two-dimensional theory of elasticity, in order to establish the fracture criteria when the joints of dissimilar adherends were subjected to cleavage loads. In the analysis, the dissimilar adherends and the adhesive were replaced with finite strips when the interfaces were bonded by an adhesive at two regions. In the numerical calculations, the effects of the ratios of Young's modulus among adherends and an adhesive, and the thickness of the adhesive, the bonding area and the position on the stress distributions at the interfaces were demonstrated. As a result, it was seen that band adhesive joints were available when the bonding area and positions were determined taking into account external loads distributions. For verification, experiments were performed on the strains of adherends and the joint strength. The analytical results were consistent with the experimental ones.
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