3rd International Conference on Theoretical and Experimental Studies in Nuclear Applications and Technology (TESNAT)
Citation
Ugur, F. A., (2017). New applications and developments in the neutron shielding.(2017). Aydin, A., Sarpun, I. H., Tel, E., Kaplan, A., Demir, B., (ed.), 3rd International Conference on Theoretical and Experimental Studies in Nuclear Applications and Technology (TESNAT). 154(Article Number: 01022). DOI: 10.1051/epjconf/201715401022Abstract
Shielding neutrons involve three steps that are slowing neutrons, absorption of neutrons, and impregnation of gamma rays. Neutrons slow down with thermal energy by hydrogen, water, paraffin, plastic. Hydrogenated materials are also very effective for the absorption of neutrons. Gamma rays are produced by neutron (radiation) retention on the neutron shield, inelastic scattering, and degradation of activation products. If a source emits gamma rays at various energies, high-energy gamma rays sometimes specify shielding requirements. Multipurpose Materials for Neutron Shields; Concrete, especially with barium mixed in, can slow and absorb the neutrons, and shield the gamma rays. Plastic with boron is also a good multipurpose shielding material. In this study; new applications and developments in the area of neutron shielding will be discussed in terms of different materials.