Laminated beams with thermoelasticity acting on the shear force

In this paper, we study the stabilization of a laminated beam system under the action of a new thermal coupling. Motivated by the work of Almeida Júnior et al. in the context of the Timoshenko system, we consider a thermoelastic coupling acting on the shear force. The present work constitutes a gene...

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Bibliographic Details
Published in:Mathematical methods in the applied sciences 2023-01, Vol.46 (1), p.1352-1374
Main Authors: Cabanillas Zannini, Victor R., Quispe Méndez, Teófanes, Ramos, Anderson J. A.
Format: Article
Language:English
Subjects:
Decay rate
exponential stability
laminated beams
linear thermoelasticity
optimal decay
polynomial stability
Shear forces
Thermal coupling
Thermoelasticity
Timoshenko beams
Wave propagation
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Summary:In this paper, we study the stabilization of a laminated beam system under the action of a new thermal coupling. Motivated by the work of Almeida Júnior et al. in the context of the Timoshenko system, we consider a thermoelastic coupling acting on the shear force. The present work constitutes a generalization of Almeida Júnior's paper because our study model considers an interfacial slip. More precisely, if we make the parameter γ$$ \gamma $$ of our system go to infinity, we obtain the Timoshenko beam system studied by the authors. We show that the weakly dissipative system of our manuscript is exponentially stable if, and only if, the wave propagation speeds are equal. Otherwise, we show that the system is polynomially stable and that the associated semigroup decays with rate t−1/2$$ {t}^{-1/2} $$. Furthermore, we show that this decay rate is optimal.
ISSN:0170-4214
1099-1476
DOI:10.1002/mma.8584