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Optical system for real-time monitoring of nuclear fuel pellets at high temperatureNuclear Engineering and Design, 2020, 357, pp.110383. ⟨10.1016/j.nucengdes.2019.110383⟩
Article dans une revue
hal-02426983v1
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An auto-catalytic mechanism to model the fission gas release between 600°C and 800°C on UO2 irradiated fuelMRS Spring Meeting 2018. Fundamental Materials Science to Enable the Performance and Safety of Nuclear Technologies. Symp EN17, Apr 2018, Phoenix, United States
Communication dans un congrès
hal-01929939v1
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Chauffage contrôlé par Laser pour la simulation de charges thermiques sur des matériaux et assemblages pour le nucléaire’Conférence MATERIAUX, 2018, strasbourg, France
Communication dans un congrès
hal-02426352v1
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Thin film samples: a new methodology for investigating the mechanisms of fission gas releases from nuclear fuel during a LOCA2016 MRS Spring Meeting, Materials Research Society, Mar 2016, Phoenix, United States. pp.2439 - 2445, ⟨10.1557/adv.2016.501⟩
Communication dans un congrès
hal-01481517v1
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Development of experimental platform for analysis and imaging of fuel pellets heated at high temperatureTopFuel 2018, 2018, prague, Czech Republic
Poster de conférence
hal-02426361v1
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An auto-catalytic mechanism to model the fission gas release between 500°C and 800°C on UO2 irradiated fuelPoster de conférence hal-01480689v1 |