Sang Pham Tu Quoc scite author profile

Sang Pham Tu Quoc

4Publications

5Citation Statements Received

15Citation Statements Given

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Affiliations

Atomic Energy and Alternative Energies Commission, University of Paris-Saclay

Publications

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New contactless method for thermal diffusivity measurements using modulated photothermal radiometry

Quoc

Cheymol

Semerok

2014

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Modulated photothermal radiometry is a non-destructive and contactless technique for the characterization of materials. It has two major advantages: a good signal-to-noise ratio through a synchronous detection and a low dependence on the heating power and the optical properties of the sample surface. This paper presents a new method for characterizing the thermal diffusivity of a material when the phase shift between a modulated laser power signal and the thermal signal of a plate sample is known at different frequencies. The method is based on a three-dimensional analytical model which is used to determine the temperature amplitude and the phase in the laser heating of the plate. A new simple formula was developed through multi-parametric analysis to determine the thermal diffusivity of the plate with knowledge of the frequency at the minimum phase shift, the laser beam radius r0 and the sample thickness L. This method was developed to control the variation of the thermal diffusivity of nuclear components and it was first applied to determine the thermal diffusivity of different metals: 304 L stainless steel, nickel, titanium, tungsten, molybdenum, zinc, and iron. The experimental results were obtained with 5%-10% accuracy and corresponded well with the reference values. The present paper also demonstrates the limit of application of this method for plate with thickness r0/100 ≤ L ≤ r0/2. The technique is deemed interesting for the characterization of barely accessible components that require a contactless measurement.

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Phase lock-in thermography for thermal diffusivity measurement and layer surface characterization

Quoc¹,

Cheymol²,

Semerok³

2014

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A new method relying on modulated photothermal radiometry with laser heating is presented for characterization of the thickness and the thermal diffusivity of materials. This non-destructive and contactless method is based on phase shift measurement between modulated laser power and thermal signal at different modulation frequencies. New simple formulas were found for thickness and thermal diffusivity determination for metal samples. The experimental setup is presented. Layer on substrate is studied with theoretical 3D-model developed in our laboratory. First measurements on virgin and oxidized nuclear fuel cladding are presented.

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Phase lock-in thermography for metal walls characterization

Quoc¹,

Cheymol²,

Semerok³

2013

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Lock-in thermography for characterization of nuclear materials

Semerok

Quoc

Cheymol

et al. 2016

EPJ Nuclear Sci. Technol.

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Sang Pham Tu Quoc

New contactless method for thermal diffusivity measurements using modulated photothermal radiometry

Phase lock-in thermography for thermal diffusivity measurement and layer surface characterization

Phase lock-in thermography for metal walls characterization

Lock-in thermography for characterization of nuclear materials

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