EXPONENTIAL STABILIZATION OF LAMINATED BEAMS WITH GURTIN–PIPKIN THERMAL LAW THE CASE OF EQUAL SPEEDS

Djellali Fayssal; Victor R. Cabanillas Zannini; Adel M. Al-Mahdi

doi:10.1216/jie.2024.36.183

Abstract

We consider a thermoelastic laminated beam system with thermal dissipation governed by the Gurtin–Pipkin law. The exponential stability problem of this system has been addressed by Djellali (2023) and Liu and Zhao (2021), who showed that the exponential stability of the system depends on complicated stability numbers involving the system wave propagation speeds and several other physical parameters of the system. We improve the existing results in the literature by showing that the exponential decay of the energy associated with the system depends solely on the ratio between the system speeds.

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Djellali Fayssal. Victor R. Cabanillas Zannini. Adel M. Al-Mahdi. "EXPONENTIAL STABILIZATION OF LAMINATED BEAMS WITH GURTIN–PIPKIN THERMAL LAW THE CASE OF EQUAL SPEEDS." J. Integral Equations Applications 36 (2) 183 - 202, Summer 2024. https://doi.org/10.1216/jie.2024.36.183

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Received: 15 November 2023; Revised: 31 March 2024; Accepted: 1 April 2024; Published: Summer 2024

First available in Project Euclid: 31 July 2024

Digital Object Identifier: 10.1216/jie.2024.36.183

Subjects:

Primary: 35B40 , 93D20

Keywords: Exponential stability , Gurtin–Pipkin thermal law , laminated beams , stability number

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