M. ;. Bertolus, . Freyss, ;. Michel, and B. ;. Dorado, Linking atomic and mesoscopic scales for the modelling of the transport properties of uranium dioxide under irradiation, J. Nucl. Mater, vol.462, pp.475-495, 2015.
URL : https://hal.archives-ouvertes.fr/cea-02066505

J. A. Basmajian, A. L. Pitner, D. E. Mahagin, H. C. Rippel, and D. E. Baker, Irradiation effects in boron carbide pellets irradiated in a fast neutron spectra, Nucl. Tech, vol.16, pp.238-248, 1972.

D. Gosset, Sodium Fast Reactor Design: Fuels, Neutronics, Thermal-Hydraulics, Structural Mechanics and Safety, 2010.

G. W. Hollenberg, Effect of fast neutron irradiation on the structure of boron carbide, J. Am. Cer. Soc, pp.520-525, 1977.

A. Letourneau, Annals of Nuclear Energy, vol.33, pp.377-384, 2006.

R. Boffy, S. Peuget, and R. Schweins, High thermal neutron flux effects on structural and macroscopic properties of alkali-borosilicate glasses used as neutron guide substrate, Nucl. Instum. Methods B, vol.374, pp.14-19, 2016.

D. Simeone, X. Deschanels, B. Berthier, and C. Tessier, Experimental evidence of lithium migration out of an irradiated boron carbide material, J. Nucl. Mater, vol.245, pp.27-33, 1997.

D. Gosset, D. Simeone, D. , and Q. , Neutron irradiation damage of boron carbide: an X-ray diffraction evaluation, J. Phys. IV France, vol.10, pp.55-63, 2000.

J. E. , Palentine « the development of silicon carbide as a routine irradiation temperature monitor, and its calibration in a thermal reactor, J. Nucl. Mater, vol.61, pp.243-253, 1976.