Abstract
The height of the bonded component of a bonded strip changes with the scope of requirements in practical applications. Therefore, one must understand the effect of the influence of the height of the bonded component. In this research, the stress intensity factors of an edge-cracked asymmetrically bonded strip are systematically computed using the proportional crack tip opening displacement method based on FE analysis. Then, the stress intensity factors are compared for arbitrary sets of material combinations in the whole range of Dundurs’ material space with varying the height of the bonded component, and the combined effects of the relative height of the bonded component and material combinations on the stress intensity factors are discussed for the typical engineering materials.
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