Stability of an $N$-component Timoshenko beam with localized Kelvin-Voigt and frictional dissipation

Tita K. Maryati; Jaime E. Munoz Rivera; Amelie Rambaud; Octavio Vera

Electronic Journal of Differential Equations (Jul 2018)

Stability of an $N$-component Timoshenko beam with localized Kelvin-Voigt and frictional dissipation

Tita K. Maryati,
Jaime E. Munoz Rivera,
Amelie Rambaud,
Octavio Vera

Affiliations

Tita K. Maryati: Islamic State Univ., Jakarta, Indonesia
Jaime E. Munoz Rivera: Univ. of Bio-Bio, Concepcion, Chile
Amelie Rambaud: Univ. of Bio-Bio, Concepcion, Chile
Octavio Vera: Univ. of Bio-Bio, Concepcion, Chile

Journal volume & issue: Vol. 2018, no. 136,
pp. 1 – 18

Abstract

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We consider the transmission problem of a Timoshenko's beam composed by N components, each of them being either purely elastic, or a Kelvin-Voigt viscoelastic material, or an elastic material inserted with a frictional damping mechanism. Our main result is that the rate of decay depends on the position of each component. More precisely, we prove that the Timoshenko's model is exponentially stable if and only if all the elastic components are connected with one component with frictional damping. Otherwise, there is no exponential stability, but a polynomial decay of the energy as $1/t^2$. We introduce a new criterion to show the lack of exponential stability, Theorem 1.2. We also consider the semilinear problem.

Published in Electronic Journal of Differential Equations

ISSN: 1072-6691 (Online)
Publisher: Texas State University
Country of publisher: United States
LCC subjects: Science: Mathematics
Website: https://ejde.math.txstate.edu

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