Litcius/Paper detail

Active thermo-reflectometry for absolute temperature measurement by infrared thermography on specular materials

Thomas Lafargue-Tallet, Romain Vaucelle, Cyril Caliot, Abderezak Aouali, Emmanuelle Abisset‐Chavanne, Alain Sommier, Raymond Peiffer, C. Pradère

2022Scientific Reports11 citationsDOIOpen Access PDF

Abstract

Knowledge of material emissivity maps and their true temperatures is of great interest for contactless process monitoring and control with infrared cameras when strong heat transfer and temperature change are involved. This approach is always followed by emissivity or reflections issues. In this work, we describe the development of a contactless infrared imaging technique based on the pyro-reflectometry approach and a specular model of the material reflection in order to overcome emissivities and reflections problems. This approach enables in situ and real-time identification of emissivity fields and autocalibration of the radiative intensity leaving the sample by using a black body equivalent ratio. This is done to obtain the absolute temperature field of any specular material using the infrared wavelength. The presented set up works for both camera and pyrometer regardless of the spectral range. The proposed method is evaluated at room temperature with several heterogeneous samples covering a large range of emissivity values. From these emissivity fields, raw and heterogeneous measured radiative fluxes are transformed into complete absolute temperature fields.

Topics & Concepts

EmissivitySpecular reflectionReflectometryThermographyPyrometerInfraredOpticsMaterials scienceRadiative transferTemperature measurementBlack-body radiationReflection (computer programming)Remote sensingPhysicsComputer scienceGeologyComputer visionQuantum mechanicsTime domainProgramming languageRadiationCalibration and Measurement TechniquesThermography and Photoacoustic TechniquesUrban Heat Island Mitigation