AI Article Synopsis
- This paper explores a method to nondestructively analyze adhesive bonds using one-sided ultrasonic techniques by examining the interaction of longitudinal and shear waves in an adhesive layer.
- The adhesive is modeled as a nonlinear elastic layer within an infinite elastic matrix, allowing for a theoretical framework that accommodates differences in elastic properties between the adhesive and surrounding materials.
- The study concludes that a very thin adhesive layer can be accurately represented as a nonlinear spring in analyses, especially when the layer's thickness is much smaller than the wavelength of the waves used in ultrasonic measurements.
Article Abstract
This paper studies the one-way collinear mixing of a pair of longitudinal and shear waves in an adhesive layer. The objective is to establish a theoretical framework for developing ultrasonic methods for nondestructively characterizing adhesive bonds by using only one side of the adhesive joint. The adhesive joint is modeled as a nonlinear elastic layer embedded in a linear elastic matrix of infinite extent. First, a solution is developed for the general case where the elastic impedance of the layer is different from that of the surrounding matrix. Then, a nonlinear spring model is developed that yields a reduced order solution for the one-way collinear wave mixing problem at hand. It is shown that in the limit of vanishing layer thickness, the solution to a layer of finite thickness reduces to that of the spring model, provided that a proper relationship is used between the properties of the nonlinear layer and the nonlinear spring. In other words, a very thin layer can be effectively replaced by a nonlinear spring. Finally, numerical analyses show that such effective replacement is valid when the layer thickness is less than a few percent of the shortest wavelength used in the measurement.
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| http://dx.doi.org/10.1121/1.5084734 | DOI Listing |
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