2019
DOI: 10.1016/j.jmaa.2019.04.034
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A linearized viscous, compressible flow-plate interaction with non-dissipative coupling

Abstract: We address semigroup well-posedness for a linear, compressible viscous fluid interacting at its boundary with an elastic plate. We derive the model by linearizing the compressible Navier-Stokes equations about an arbitrary flow state, so the fluid PDE includes an ambient flow profile U. In contrast to model in [6], we track the effect of this term at the flow-structure interface, yielding a velocity matching condition involving the material derivative of the structure; this destroys the dissipative nature of t… Show more

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Cited by 16 publications
(49 citation statements)
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“…. We make use of the standard notation for the boundary trace of functions defined on , which are sufficiently smooth; for example, for a scalar function Φ ∈ H s (), 1 2 < s < 3 2 , (Φ) = Φ|  , which is a well-defined and surjective mapping on this range of s, owing to the Sobolev Trace Theorem on Lipschitz domains (see, e.g., Nečas 30 or Theorem 3.…”
Section: Functional Setting Of the Problemmentioning
confidence: 99%
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“…. We make use of the standard notation for the boundary trace of functions defined on , which are sufficiently smooth; for example, for a scalar function Φ ∈ H s (), 1 2 < s < 3 2 , (Φ) = Φ|  , which is a well-defined and surjective mapping on this range of s, owing to the Sobolev Trace Theorem on Lipschitz domains (see, e.g., Nečas 30 or Theorem 3.…”
Section: Functional Setting Of the Problemmentioning
confidence: 99%
“…Theorem (See Theorem 3.1 of Avalos et al 2 . and Theorem 5.1 of Avalos et al 3 .) Assume that ambient vector field boldUboldV0boldH3false(scriptOfalse) (when κ = 0 and κ = 1.)…”
Section: Functional Setting Of the Problemmentioning
confidence: 99%
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