Article ID Journal Published Year Pages File Type
1728253 Annals of Nuclear Energy 2014 6 Pages PDF
Abstract

•Gamma and neutron attenuation behaviours of B4C–SiC composites were investigated.•Increasing SiC ratio increases gamma attenuation behaviour of the B4C–SiC composites.•Increasing SiC ratio decrease attenuation behaviour of the B4C–SiC composites.•HVT values of the B4C–SiC composites were calculated for Cs-137, Co-60 and Pu–Be sources.•Experimental mass attenuation coefficient are compatible with theoretical (XCOM) values.

In this study, the gamma and neutron attenuation behaviors of pure boron carbide and boron carbide–silicon carbide composites which include three different silicon carbide ratios (20%, 30%, and 40%) by volume were investigated against Cs-137, Co-60 gamma radioisotope sources and Pu–Be neutron source. Transmission technique was used in the experiments to investigate the gamma and neutron attenuation properties of the materials. Linear and mass attenuation coefficients of the samples were determined for 0.662 (Cs-137) and 1.25 MeV (Co-60) energetic gamma rays. In addition the total macroscopic cross-sections (∑T) were calculated for the materials against Pu–Be neutron source. Theoretical mass attenuation coefficients were calculated from XCOM computer code. The experimental and theoretical mass attenuation coefficients were compared and evaluated with each other. In addition half value thickness (HVT) calculations were carried out by using linear attenuation coefficients and total macroscopic cross-sections. The results showed that increasing silicon carbide ratio decreases HVTs against Cs-137 and Co-60 gamma radioisotope sources whereas increases HVTs against Pu–Be neutron source. The mass attenuation coefficients were compatible with the theoretical (XCOM) values. Increasing silicon carbide ratio in boron carbide–silicon carbide composites causes higher gamma attenuation and lower neutron attenuation values.

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