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Archive of Applied Mechanics
Published in: Archive of Applied Mechanics 1/2023

02-11-2021 | Original

Joint finite size influence and frictional influence on the contact behavior of thermoelectric strip

Authors: X. J. Tian, Y. T. Zhou, F. J. Li, L. H. Wang

Published in: Archive of Applied Mechanics | Issue 1/2023

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Abstract

The severe electric and thermal environments may cause localized deterioration of the contact behavior of thermoelectric devices. The contact responses of the thermoelectricity under the joint effect of the finite size and the friction are analyzed. The law of the Coulomb friction is adopted. The obtained Fredholm kernel functions reveal the influence of the thickness and the friction. The known Jacobi polynomials are employed to discretize the obtained singular integral equation. The effects of the thermoelectric loadings (the total electric current and the total energy flux), friction coefficient, the thermoelectric strip thickness, and the elastic and thermoelectric material constants on the distribution of the normal traction and the surface in-plane stress are demonstrated in detail. The smaller thermal expansion coefficient and shear modulus will contribute to the lower stress concentration at both contact edges. The surface in-plane tensile stress behind the trailing edge can be alleviated as the thermoelectric strip becomes thinner.
previous article Mechanical characterization of composite materials with rectangular microstructure and voids

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Appendix
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Metadata
Title
Joint finite size influence and frictional influence on the contact behavior of thermoelectric strip
Authors
X. J. Tian
Y. T. Zhou
F. J. Li
L. H. Wang
Publication date
02-11-2021
Publisher
Springer Berlin Heidelberg
Published in
Archive of Applied Mechanics / Issue 1/2023
Print ISSN: 0939-1533
Electronic ISSN: 1432-0681
DOI
https://doi.org/10.1007/s00419-021-02061-6

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