P. Trompette scite author profile

P. Trompette

5Publications

178Citation Statements Received

78Citation Statements Given

How they've been cited

265

177

How they cite others

Affiliations

Inserm, Sols, Solides, Structures, Risques, Claude Bernard University Lyon 1

Publications

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Determination of transport parameters in air-saturated porous materials via reflected ultrasonic waves

Fellah

Dépollier

Berger

et al. 2003

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An ultrasonic reflectivity method of evaluating the acoustic parameters of porous materials saturated by air (or any other gas) is discussed. The method is based on experimental detection of waves reflected at normal incidence by the first and second interface of the material. This method is based on a temporal model of direct and inverse scattering problems for the propagation of transient ultrasonic waves in a homogeneous isotropic slab of porous material with a rigid frame [Fellah et al., J. Acoust. Soc. Am. 113, 61-73 (2003)]. Generally, the conventional ultrasonic approach can be used to determine tortuosity, and viscous and thermal characteristic lengths via transmitted waves. Porosity cannot be estimated in transmitted mode because of its very weak sensitivity. First interface use of the reflected wave at oblique incidence leads to the determination of porosity and tortuosity [Fellah et al., J. Acoust. Soc. Am. 113, 2424-2433 (2003)] but this is not possible at normal incidence. Using experimental data of reflected waves by the first and second interface at normal incidence simultaneously leads to the determination of porosity, tortuosity, viscous and thermal characteristic lengths. As with the classic ultrasonic approach for characterizing porous material saturated with one gas, both characteristic lengths are estimated individually by assuming a given ratio between them. Tests are performed using weakly resistive industrial plastic foams. Experimental and numerical results, and prospects are discussed.

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Improving the Use of Vibro-Acoustography forBrachytherapy Metal Seed Imaging:A Feasibility Study

Mitri

Trompette

Chapelon

2004

IEEE Trans. Med. Imaging

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Vibro-acoustography method is explored for detecting and imaging brachytherapy metal seeds in gel phantoms. In a previous paper, we have shown that some immersed objects' resonance frequencies could be detected by vibro-acoustography. Here, we use this idea to optimize the vibro-acoustic excitation of two different sized brass seeds implanted in an agar gel phantom. In the experiments, the best excitation vibration frequencies were determined either by calculating fundamental resonance frequencies for each of the seeds or the experimental optimal resonance frequency of the gel. The resulting vibro-acoustography images demonstrate remarkable contrast in acoustic emission amplitude compared with images obtained at nonresonance frequencies. Results suggest the possible application of vibro-acoustography for directing prostate brachytherapy seed implantation treatment.

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Maximization of buckling loads of composite panels using flexural lamination parameters

Liu

Haftka

Trompette

2004

Struct Multidisc Optim

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Ultrasonic measurement of the porosity and tortuosity of air-saturated random packings of beads

Fellah

Berger

Lauriks

et al. 2003

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Acoustic waves switch based on meta-fluid phononic crystals J. Appl. Phys. 112, 044509 (2012) Probing near-normally propagating bulk acoustic waves using pseudo-reflection geometry Brillouin spectroscopy AIP Advances 2, 032157 (2012) Multiple-band transmission of acoustic wave through metallic gratings Appl. Phys. Lett. 101, 061912 (2012) Analysis of spherical thermo-acoustic radiation in gas AIP Advances 2, 032106 (2012) Acoustic properties of Kel F-800 copolymer up to 85 GPa

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Optimal constrained layer damping with partial coverage

Marcelin

Trompette

Smati

1992

Finite Elements in Analysis and Design

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P. Trompette

Determination of transport parameters in air-saturated porous materials via reflected ultrasonic waves

Improving the Use of Vibro-Acoustography forBrachytherapy Metal Seed Imaging:A Feasibility Study

Maximization of buckling loads of composite panels using flexural lamination parameters

Ultrasonic measurement of the porosity and tortuosity of air-saturated random packings of beads

Optimal constrained layer damping with partial coverage

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