Higidio Portillo Oquendo scite author profile

In this article we show exponential and polynomial decay rates for the partially viscoelastic nonlinear wave equation subject to a nonlinear and localized frictional damping. The equation that model this problem is given by u tt − κ 0 ∆u + t 0 div[a(x)g(t − s)∇u(s)] ds + f (u) + b(x)h(u t) = 0 in Ω × R + , (0.1) where a, b are nonnegative functions, a ∈ C 1 (Ω), b ∈ L ∞ (Ω), satisfying the assumption a(x) + b(x) ≥ δ > 0 ∀x ∈ Ω, (0.2) and f and h are power like functions. We observe that the assumption (0.2) gives us a wide assortment of possibilities to choose the functions a(x) and b(x) and the most interesting case occurs when one has simultaneous and complementary damping mechanisms. Taking this point of view into account, a distinctive feature of our paper is exactly to consider different and localized damping mechanisms acting in the domain but not necessarily 'strategically localized dissipations' as considered in the prior literature.

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Asymptotic behavior to a von Kármán plate with boundary memory conditions

Rivera

Oquendo

Santos

2005

Nonlinear Analysis: Theory, Methods & Applications

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The Transmission Problem for Thermoelastic Beams

Rivera¹,

Oquendo²

2001

Journal of Thermal Stresses

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Optimal decay for coupled waves with Kelvin–Voigt damping

Oquendo

Pacheco

2017

Applied Mathematics Letters

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Asymptotic Behavior of a Mindlin-Timoshenko Plate with Viscoelastic Dissipation on the Boundary

Rivera¹,

Oquendo²

2003

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