Multilayered cylindrical panels with interface diffusion and sliding under thermomechanical loads

Multilayered cylindrical panels with interface diffusion and sliding under thermomechanical loads We investigate the time-dependent deformations of multilayered isotropic elastic cylindrical panels with interfacial diffusion and rate-dependent sliding under thermomechanical loads. The state-space approach is found to be extremely effective for the analysis of a cylindrical panel composed of an arbitrary number of layers. We show that when a particular condition is met, the thermal loading will not induce any thermal stresses in the cylindrical panel. To demonstrate our results, we present the evolving displacements and stresses in a three-layered panel induced by sinusoidal temperature variation and normal traction applied to its upper surface. In addition, we present all 198 relaxation times corresponding to a 100-layered panel. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Acta Mechanica Springer Journals

Multilayered cylindrical panels with interface diffusion and sliding under thermomechanical loads

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Publisher
Springer Vienna
Copyright
Copyright © 2017 by Springer-Verlag Wien
Subject
Engineering; Theoretical and Applied Mechanics; Classical and Continuum Physics; Continuum Mechanics and Mechanics of Materials; Structural Mechanics; Vibration, Dynamical Systems, Control; Engineering Thermodynamics, Heat and Mass Transfer
ISSN
0001-5970
eISSN
1619-6937
D.O.I.
10.1007/s00707-017-1886-4
Publisher site
See Article on Publisher Site

Abstract

We investigate the time-dependent deformations of multilayered isotropic elastic cylindrical panels with interfacial diffusion and rate-dependent sliding under thermomechanical loads. The state-space approach is found to be extremely effective for the analysis of a cylindrical panel composed of an arbitrary number of layers. We show that when a particular condition is met, the thermal loading will not induce any thermal stresses in the cylindrical panel. To demonstrate our results, we present the evolving displacements and stresses in a three-layered panel induced by sinusoidal temperature variation and normal traction applied to its upper surface. In addition, we present all 198 relaxation times corresponding to a 100-layered panel.

Journal

Acta MechanicaSpringer Journals

Published: Jun 7, 2017

References

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