Olivier Dazel scite author profile

Olivier Dazel

3Publications

222Citation Statements Received

92Citation Statements Given

How they've been cited

284

216

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Affiliations

French National Centre for Scientific Research, Le Mans Université, Université Nantes Angers Le Mans

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An alternative Biot’s displacement formulation for porous materials

Dazel

Brouard

Dépollier

et al. 2007

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This paper proposes an alternative displacement formulation of Biot's linear model for poroelastic materials. Its advantage is a simplification of the formalism without making any additional assumptions. The main difference between the method proposed in this paper and the original one is the choice of the generalized coordinates. In the present approach, the generalized coordinates are chosen in order to simplify the expression of the strain energy, which is expressed as the sum of two decoupled terms. Hence, new equations of motion are obtained whose elastic forces are decoupled. The simplification of the formalism is extended to Biot and Willis thought experiments, and simpler expressions of the parameters of the three Biot waves are also provided. A rigorous derivation of equivalent and limp models is then proposed. It is finally shown that, for the particular case of sound-absorbing materials, additional simplifications of the formalism can be obtained.

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Enhancing the absorption coefficient of a backed rigid frame porous layer by embedding circular periodic inclusions

Groby

Dazel

Duclos

et al. 2011

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The acoustic properties of a porous sheet of medium static air flow resistivity (around 10,000 N m s(-4)), in which a periodic set of circular inclusions is embedded and which is backed by a rigid plate, are investigated. The inclusions and porous skeleton are assumed motionless. Such a structure behaves like a multi-component diffraction grating. Numerical results show that this structure presents a quasi-total (close to unity) absorption peak below the quarter-wavelength resonance of the porous sheet in absence of inclusions. This result is explained by the excitation of a complex trapped mode. When more than one inclusion per spatial period is considered, additional quasi-total absorption peaks are observed. The numerical results, as calculated with the help of the mode-matching method described in this paper, agree with those calculated using a finite element method.

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Enhancing the absorption properties of acoustic porous plates by periodically embedding Helmholtz resonators

et al. 2015

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This paper studies the acoustical properties of hard-backed porous layers with periodically embedded air filled Helmholtz resonators. It is demonstrated that some enhancements in the acoustic absorption coefficient can be achieved in the viscous and inertial regimes at wavelengths much larger than the layer thickness. This enhancement is attributed to the excitation of two specific modes: Helmholtz resonance in the viscous regime and a trapped mode in the inertial regime. The enhancement in the absorption that is attributed to the Helmholtz resonance can be further improved when a small amount of porous material is removed from the resonator necks. In this way the frequency range in which these porous materials exhibit high values of the absorption coefficient can be extended by using Helmholtz resonators with a range of carefully tuned neck lengths.

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Olivier Dazel

An alternative Biot’s displacement formulation for porous materials

Enhancing the absorption coefficient of a backed rigid frame porous layer by embedding circular periodic inclusions

Enhancing the absorption properties of acoustic porous plates by periodically embedding Helmholtz resonators

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