Lucile Robin scite author profile

Lucile Robin

4Publications

51Citation Statements Received

66Citation Statements Given

How they've been cited

109

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Centre d'Études Scientifiques et Techniques d'Aquitaine

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Evaluation of the fused silica thermal conductivity by comparing infrared thermometry measurements with two-dimensional simulations

Combis¹,

Cormont²,

Gallais³

et al. 2012

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A self-consistent approach is proposed to determine the temperature dependent thermal conductivity k(T) of fused silica, for a range of temperatures up to material evaporation using a CO2 laser irradiation. Calculation of the temperature of silica using a two-dimensional axi-symmetric code was linked step by step as the laser power was increased with experimental measurements using infrared thermography. We show that previously reported k(T) does not reproduce the temporal profile as well as our adaptive fit which shows that k(T) evolves with slope discontinuities at the annealing temperature and the softening temperature.

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Infrared thermometry and interferential microscopy for analysis of crater formation at the surface of fused silica under CO2 laser irradiation

Robin¹,

Combis²,

Cormont³

et al. 2012

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In situ spatial and temporal temperature measurements of a fused silica surface heated by a 10.6 lm CO 2 laser were performed using an infrared camera. These measurements were derived from heat flux emission of the fused silica. High temperature measurements-in the range 400-2500 K-were performed at the surface of a semi-transparent media with a high spatial resolution. Particular attention was given to the experimental conception and to the calibration of the infrared device. Moreover, both conventional and interferential microscopes were used to characterize the silica surfaces after CO 2 laser irradiation. By associating these results with thermal camera measurements we identified the major surface temperature levels of silica transformation when heated during 250 ms. Surface deformation of silica is observed for temperatures <2000 K. This is consistent with other recent work using CO 2 laser heating. At higher temperatures, matter ejection, as deduced from microscope observations, occurs at temperatures that are still much lower than the standard boiling point. Such evaporation is described by a thermodynamical approach, and calculations show very good agreement with experiment. V

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Experimental and Theoretical Determination of Spectral Heat Flux Emitted by a Ceramic Under Axial Temperature Gradient

Robin¹,

Delmas²,

Lanternier³

et al. 2006

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Surface temperature measurement of semitransparent ceramics at high temperature Comparison between pyrometry at the Christiansen frequency and infrared thermography

Robin

Delmas²,

Lanternier

2007

Quantitative InfraRed Thermography Journal

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Lucile Robin

Evaluation of the fused silica thermal conductivity by comparing infrared thermometry measurements with two-dimensional simulations

Infrared thermometry and interferential microscopy for analysis of crater formation at the surface of fused silica under CO2 laser irradiation

Experimental and Theoretical Determination of Spectral Heat Flux Emitted by a Ceramic Under Axial Temperature Gradient

Surface temperature measurement of semitransparent ceramics at high temperature Comparison between pyrometry at the Christiansen frequency and infrared thermography

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