Some spatial decay estimates in continuum dynamics

Flavin, J. N.; Knops, R. J.

doi:10.1007/bf00049455

Cited by 60 publications

(45 citation statements)

References 13 publications

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“…In this respect, for vibrations in the low frequency range, our expected results describe exponential spatial estimates similar with those previously established by Flavin et al [1987;1990]. Moreover, for harmonic vibrations with appropriate high frequencies, the present results predict some algebraic spatial estimates, confirming the foregoing observations made by Boley in related context.…”

Section: Introductionsupporting

confidence: 92%

“…It is outlined in [Horgan and Knowles 1983] that one would not expect to find unqualified decay estimates of the kind concerning Saint-Venant's principle in problems involving elastic wave propagation, even if the end loads are self-equilibrated at each instant. In this connection, Flavin and Knops [1987] have carried out an analysis of spatial decay for certain damped acoustic and elastodynamic problems in the low frequency range which substantiates the early work of Boley. These results are extended to linear anisotropic Keywords: spatial behavior, harmonic vibrations, linear elasticity, strongly elliptic elasticity tensor.…”

Section: Introductionsupporting

confidence: 63%

“…We note that the spatial behavior of the transient solution U r can be described by the methods developed in [Chirit ,ȃ and Ciarletta 1999;Tibullo and Vaccaro 2008]. The exponential spatial decay of the amplitude v r of the forced oscillation has been established in [Flavin and Knops 1987;Flavin et al 1990;Knops 1991] for isotropic and anisotropic elastic materials with a positive definite elasticity tensor, provided the exciting frequency is less than a certain critical value. Considering an appropriate region filled with an isotropic elastic material an algebraical spatial decay of the amplitude of vibration has been established in [Chirit ,ȃ and Quintanilla 1996] under the assumption that the elasticity tensor is positive definite and without any restriction upon the frequency of vibration.…”

Section: Formulation Of the Problemmentioning

confidence: 93%

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Spatial evolution of harmonic vibrations in linear elasticity

Chiriţă

Ciarletta

2008

JOMMS

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In the present paper we consider a prismatic cylinder occupied by an anisotropic homogeneous compressible linear elastic material that is subject to zero body force and zero displacement on the lateral boundary. The elasticity tensor is strongly elliptic and the motion is induced by a harmonic time-dependent displacement specified pointwise over the base. We establish some spatial estimates for appropriate cross-sectional measures associated with the harmonic vibrations that describe how the corresponding amplitude evolves with respect to the axial distance at the excited base. The results are established for finite as well as for semi-infinite cylinders (where alternatives results of Phragmén-Lindelöf type are obtained) and the exciting frequencies can take appropriate low and high values. In fact, for the low frequency range the established spatial estimates are of exponential type, while for the high frequency range the spatial estimates are of a certain algebraic type.

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Section: Introductionsupporting

confidence: 92%

Section: Introductionsupporting

confidence: 63%

Section: Formulation Of the Problemmentioning

confidence: 93%

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Spatial evolution of harmonic vibrations in linear elasticity

Chiriţă

Ciarletta

2008

JOMMS

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“…We must emphasize that the spatial behavior of the harmonic in time vibrations has been studied by Chirita [3] in the classical linear thermoelasticity, by using a technique developed by Flavin and Knops [6] in the low frequency range. The author establishes some exponential estimates for spatial evolution of the amplitude of vibration, provided the positive definiteness of the constitutive coefficients is assumed.…”

Section: Introductionmentioning

confidence: 99%

Evolution of solutions for dipolar bodies in Thermoelasticity without energy dissipation

Marín

Abbas

2016

Analele Universitatii "Ovidius" Constanta - Seria Matematica

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The aim of our paper is the study of the spatial evolution of vibrations in the context of Thermoelasticity without energy dissipation for dipolar bodies. Once we get an a priori estimate for the amplitude of the vibration, which are assumed being harmonic in time, it is possible to predict some spatial decay or growth properties for the amplitude, provided the frequency of vibration is greater than a certain critical value.

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“…Initial boundary value problems of this type have been treated by Flavin and Knops [1] in the framework of the linearly damped wave equation and the linearly elastic damped cylinder. They proved that in both cases the existence of damping gives rise ultimately to a steady-state oscillation, whose amplitude decays exponentially from the excited end provided the exciting frequency is less than a certain critical value.…”

mentioning

confidence: 99%

On spatial behavior in linear viscoelasticity

Galeş

Chiriţă

2009

Quart. Appl. Math.

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Abstract. Within the framework of linear viscoelasticity this paper deals with the study of spatial behavior of solutions describing harmonic vibrations in a right cylinder of finite extent. Some exponential decay estimates of Saint-Venant type, in terms of the distance from the excited end of the cylinder are obtained from a first-order differential inequality concerning an appropriate measure associated with the amplitude of the steady-state vibration. The dissipative mechanism guarantees the validity of the result for every value of the frequency of vibration and for the class of viscoelastic materials compatible with thermodynamics whose relaxation tensor is supposed to be symmetric and sufficiently regular. The case of a semi-infinite cylinder is also studied, and some alternatives of Phragmén-Lindelöf type are established.Introduction. The present paper is concerned with the study of the spatial behavior of solutions in a right cylinder made of an anisotropic and homogeneous viscoelastic solid. We consider a finite cylinder subject to boundary data varying harmonically in time on one end, while the other end and lateral surface are clamped. The history of the displacement up to time t = 0 is supposed to be known and the body force is assumed to be absent.Initial boundary value problems of this type have been treated by Flavin and Knops [1] in the framework of the linearly damped wave equation and the linearly elastic damped cylinder. They proved that in both cases the existence of damping gives rise ultimately to a steady-state oscillation, whose amplitude decays exponentially from the excited end provided the exciting frequency is less than a certain critical value. The latter case has

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Some spatial decay estimates in continuum dynamics

Cited by 60 publications

References 13 publications

Spatial evolution of harmonic vibrations in linear elasticity

Spatial evolution of harmonic vibrations in linear elasticity

Evolution of solutions for dipolar bodies in Thermoelasticity without energy dissipation

On spatial behavior in linear viscoelasticity

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