Abstract
In Part I of this study we experimentally explored the effects of adhesion area, number of glue spots, and bond thickness on the effective Young's modulus in glass slide/glue composite specimens having adhesion areas ranging from 0%–100%. In this paper, the Young's modulus data are analysed further as a function of bond thickness in glass slide/glue laminates having 100% adhesion area and are compared with predictions from two existing models, a rule of mixtures model and a dynamic beam vibration model. Based on the experimental results obtained in Part I, a model has been obtained for glass slide/glue composite specimens by applying several boundary conditions. The resulting expression predicts the elastic modulus of a three-layer composite specimen bonded by an adhesive. The model developed describes well the experimental results obtained in Part I.
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