1. Adhesive Joint Fracture Under Combined Pulsed and Vibrational Loading
- Author
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Yuri Petrov, Andrey Logachev, G. A. Volkov, and Nickolay Granichin
- Subjects
Vibration ,symbols.namesake ,Materials science ,Fourier transform ,Differential equation ,symbols ,Fracture (geology) ,Adhesive ,Composite material ,Joint (geology) ,Intensity (heat transfer) ,Beam (structure) ,Quantitative Biology::Cell Behavior - Abstract
The strength of the adhesion joint under the combined vibrational-pulsed loading is considered. Beam and membrane models on elastic foundation is applied to simulate behavior of adhesion zone. The incubation time criterion is used to determine the threshold parameters of a load required to adhesive zone fracture. The solution of the differential equation describing the behavior of the adhesive zone is obtained by the Fourier method. Different types of combination of pulsed loading with high-frequency external fields are considered. It demonstrates that background vibration fields of even low intensity at certain frequencies can significantly reduce these critical values. The dependence of the threshold value of the external pulse on the model parameters is shown. The possible way to control to adhesive joint strength by background vibrational fields is suggested.
- Published
- 2020
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