C
Christophe Pradere
Researcher at Arts et Métiers ParisTech
Publications - 126
Citations - 1505
Christophe Pradere is an academic researcher from Arts et Métiers ParisTech. The author has contributed to research in topics: Thermography & Thermal diffusivity. The author has an hindex of 19, co-authored 117 publications receiving 1212 citations. Previous affiliations of Christophe Pradere include Tomsk Polytechnic University & Solvay.
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Transverse and longitudinal coefficient of thermal expansion of carbon fibers at high temperatures (300–2500 K)
Christophe Pradere,Cédric Sauder +1 more
TL;DR: In this paper, the transverse and longitudinal coefficients of thermal expansion (CTE) of carbon fibers are measured at very high temperatures (up to 2500 K) and the results show that the mean transverse CTE varies from 5.6 −10 −6 ǫ K −1 to 2.1 −6 −6 K − 1 −1 depending on fiber structural properties.
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Thermal properties of carbon fibers at very high temperature
Christophe Pradere,Jean-Christophe Batsale,Jean-Marc Goyheneche,René Pailler,Stefan Dilhaire +4 more
TL;DR: In this paper, the experimental thermal conductivity estimated by the indirect relation \lambda = a\rhoC_p is presented as a function of the temperature, and the influence of heat treatment on the thermal conductivities of carbon fibers is also described.
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Thermal (IR) and Other NDT Techniques for Improved Material Inspection
Daniel L. Balageas,Xavier Maldague,Douglas Burleigh,Vladimir P. Vavilov,Beata Oswald-Tranta,Jean-Michel Roche,Christophe Pradere,Giovanni Maria Carlomagno +7 more
TL;DR: In this article, the authors provide a concise review of composite NDT using TNDT in combination with other inspection techniques, providing an opportunity for data fusion, especially for composite materials.
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Processing of temperature field in chemical microreactors with infrared thermography
TL;DR: In this article, the first analysis of temperature fields related to chemical microfluidic reactors is devoted to the analysis of the heat transport around and inside a microchannel is both convective and diffusive with spatial distribution of source terms and strong conductive effects in the channel surrounding.
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Extending the flash method to measure the thermal diffusivity of semitransparent solids
Agustín Salazar,Arantza Mendioroz,Estibaliz Apiñaniz,Christophe Pradere,Frédéric Noël,Jean-Christophe Batsale +5 more
TL;DR: In this article, the authors extend the classical flash method to retrieve simultaneously the thermal diffusivity and the optical absorption coefficient of semitransparent plates, and a complete theoretical model that allows calculating the rear surface temperature rise of the sample has been developed.