Olivier Fiquet scite author profile

The thermal degradation behavior of a commercial epoxy resin, EpoFixV R (Struers), has been investigated by thermogravimetry (TG), differential thermal gravimetry (DTG), and differential thermal analysis (DTA) under nonisothermal conditions in an argon atmosphere. Different methods (Kissinger, Flynn-Wall-Ozawa (FWO), Friedman isoconversion methods, and nonlinear least-squares (NLSQ) estimation method) have been used to analyze the thermal degradation process and determine the apparent kinetic parameters. The methods produce similar results in terms of activation energy estimations. Nevertheless, the NLSQ method has several advantages over the other methods in terms of both characterizing the activation energy and modeling the thermal degradation-i.e., including this model in a resin degradation process simulation. However, it is interesting to combine the NLSQ method with other isoconversion methods: they can reflect the dependence and variability of the activation energies during pyrolysis processes, while providing a good starting point for a nonlinear procedure, especially with respect to the activation energy E. This work is the first step (apparent kinetic reaction) of complete simulation of experimental oven of degradation of epoxy resin coating of impregnate nuclear fuel sample.

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Oxidation of UC: An in situ high temperature environmental scanning electron microscopy study

Gasparrini

Podor

Horlait

et al. 2017

Journal of Nuclear Materials

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Abstract. In situ HT-ESEM oxidation of sintered UC fragments revealed the morphological changes occurring during the transformation between UC to UO2 and UO2 to U3O8 at 723 to 848 K and in an atmosphere of 10 to 100 Pa O2. Two main oxidation pathways were revealed. Oxidation at 723 K in atmospheres ≤ 25 Pa O2 showed the transformation from UC to UO2+x, as confirmed by post mortem HRTEM analysis. This oxidation pathway was comprised of three steps: (i) an induction period, where only surface UC particles oxidised, (ii) a sample area expansion accompanied by crack formation and propagation, (iii) a stabilisation of the total crack length inferring that crack propagation had stopped. Samples oxidised under 50 Pa O2 at 723 K and at 773 -848 K for 10 to 100 Pa O2 showed an "explosive" oxidation pathway: (i) sample area expansion occurred as soon as oxygen was inserted into the chamber and crack propagation and crack length followed an exponential law; (ii) cracks propagated as a network and the oxide layer fragmented, (iii) an "explosion" occurred causing a popcorn-like transformation, typical for oxidation from UO2 to U3O8. HRTEM characterisation revealed U3O8 preferentially grow in the [001] direction. The explosive growth, triggered by ignition of UC, proceeded as a self-propagating high-temperature synthesis reaction, with a propagation speed of 150-500 ± 50 µm/s.

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Oxidation kinetic analysis of a mixed uranium dicarbide and graphite compound

Marchand

Fiquet

Brothier

2013

Journal of Nuclear Materials

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Experimental study of UC polycrystals in the prospect of improving the as-fabricated sample purity

Raveu

Martin

Fiquet

et al. 2014

Nuclear Instruments and Methods in Physics Research Section B:

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Olivier Fiquet

Thermal degradation kinetics of a commercial epoxy resin—Comparative analysis of parameter estimation methods

Oxidation of UC: An in situ high temperature environmental scanning electron microscopy study

Oxidation kinetic analysis of a mixed uranium dicarbide and graphite compound

Experimental study of UC polycrystals in the prospect of improving the as-fabricated sample purity

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