Optimal stability for laminated beams with Kelvin-Voigt damping and Fourier's law

Victor Cabanillas Zannini; Teófanes Quispe Méndez; A. J.A. Ramos

doi:10.3233/ASY-231883

Optimal stability for laminated beams with Kelvin-Voigt damping and Fourier's law

Victor Cabanillas Zannini
, Teófanes Quispe Méndez
, A. J.A. Ramos

Research output: Contribution to journal › Article (Contribution to Journal) › peer-review

1 Scopus citations

Abstract

This article deals with the asymptotic behavior of a mathematical model for laminated beams with Kelvin-Voigt dissipation acting on the equations of transverse displacement and dimensionless slip. We prove that the evolution semigroup is exponentially stable if the damping is effective in the two equations of the model. Otherwise, we prove that the semigroup is polynomially stable and find the optimal decay rate when damping is effective only in the slip equation. Our stability approach is based on the Gearhart-Prüss-Huang Theorem, which characterizes exponential stability, while the polynomial decay rate is obtained using the Borichev and Tomilov Theorem.

Original language	English
Pages (from-to)	123-151
Number of pages	29
Journal	Asymptotic Analysis
Volume	137
Issue number	1-2
DOIs	https://doi.org/10.3233/ASY-231883
State	Published - 4 Mar 2024

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title = "Optimal stability for laminated beams with Kelvin-Voigt damping and Fourier's law",

abstract = "This article deals with the asymptotic behavior of a mathematical model for laminated beams with Kelvin-Voigt dissipation acting on the equations of transverse displacement and dimensionless slip. We prove that the evolution semigroup is exponentially stable if the damping is effective in the two equations of the model. Otherwise, we prove that the semigroup is polynomially stable and find the optimal decay rate when damping is effective only in the slip equation. Our stability approach is based on the Gearhart-Pr{\"u}ss-Huang Theorem, which characterizes exponential stability, while the polynomial decay rate is obtained using the Borichev and Tomilov Theorem.",

author = "\{Cabanillas Zannini\}, Victor and \{Quispe M{\'e}ndez\}, Te{\'o}fanes and Ramos, \{A. J.A.\}",

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T1 - Optimal stability for laminated beams with Kelvin-Voigt damping and Fourier's law

AU - Cabanillas Zannini, Victor

AU - Quispe Méndez, Teófanes

AU - Ramos, A. J.A.

PY - 2024/3/4

Y1 - 2024/3/4

N2 - This article deals with the asymptotic behavior of a mathematical model for laminated beams with Kelvin-Voigt dissipation acting on the equations of transverse displacement and dimensionless slip. We prove that the evolution semigroup is exponentially stable if the damping is effective in the two equations of the model. Otherwise, we prove that the semigroup is polynomially stable and find the optimal decay rate when damping is effective only in the slip equation. Our stability approach is based on the Gearhart-Prüss-Huang Theorem, which characterizes exponential stability, while the polynomial decay rate is obtained using the Borichev and Tomilov Theorem.

AB - This article deals with the asymptotic behavior of a mathematical model for laminated beams with Kelvin-Voigt dissipation acting on the equations of transverse displacement and dimensionless slip. We prove that the evolution semigroup is exponentially stable if the damping is effective in the two equations of the model. Otherwise, we prove that the semigroup is polynomially stable and find the optimal decay rate when damping is effective only in the slip equation. Our stability approach is based on the Gearhart-Prüss-Huang Theorem, which characterizes exponential stability, while the polynomial decay rate is obtained using the Borichev and Tomilov Theorem.

UR - https://www.scopus.com/pages/publications/85187548977

U2 - 10.3233/ASY-231883

DO - 10.3233/ASY-231883

M3 - Artículo (Contribución a Revista)

AN - SCOPUS:85187548977

SN - 0921-7134

VL - 137

SP - 123

EP - 151

JO - Asymptotic Analysis

JF - Asymptotic Analysis

IS - 1-2

ER -

Optimal stability for laminated beams with Kelvin-Voigt damping and Fourier's law

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