Moncef Lehtihet,1,2 Jacques Leng,3 Christophe Pradère4
1CNRS, Solvay, Lab. of the Future, UMR (France) 2Institute of Mechanics and Engineering, CNRS, UMR (France) 3Lab. du Futur (France) 4Institut du Mécanique et d'Ingénierie (France)
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In this paper is presented an IR imaging technique allowing one to retrieve quantitative concentration and temperature maps with relatively fast acquisition times of samples evolving in time. A model study is realized based on the drying of a drop of colloidal dispersion in confined geometry and quantitative maps of colloid volume fraction and temperature everywhere in the dorp are retrieved. Finally, a secondary technique of IR tomography is presented to extend the setup sensitivity to the thickness of the sample and 3D tomographs of both thermal emissivity and IR absorbance of a silica gel are constructed numerically.
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Moncef Lehtihet, Jacques Leng, Christophe Pradère, "Infrared thermospectroscopic imaging and tomography of confined process," Proc. SPIE 10998, Advanced Optics for Imaging Applications: UV through LWIR IV, 109980U (14 May 2019); https://doi.org/10.1117/12.2514708