加载微米和纳米颗粒的普通混凝土对中子和伽马辐射的屏蔽性能。

Shielding properties of the ordinary concrete loaded with micro- and nano-particles against neutron and gamma radiations.

作者信息

Mesbahi Asghar, Ghiasi Hosein

机构信息

Medical Radiation Sciences Research Team, Imam Hospital, Tabriz University of Medical Sciences, Tabriz, Iran; Molecular Medicine Research Center, Tabriz University of Medical Sciences, Tabriz, Iran; Medical Physics Department, Medical School, Tabriz University of Medical Sciences, Tabriz, Iran.

Medical Radiation Sciences Research Team, Imam Hospital, Tabriz University of Medical Sciences, Tabriz, Iran.

出版信息

Appl Radiat Isot. 2018 Jun;136:27-31. doi: 10.1016/j.apradiso.2018.02.004. Epub 2018 Feb 3.

DOI:10.1016/j.apradiso.2018.02.004

PMID:29455112

Abstract

The shielding properties of ordinary concrete doped with some micro and nano scaled materials were studied in the current study. Narrow beam geometry was simulated using MCNPX Monte Carlo code and the mass attenuation coefficient of ordinary concrete doped with PbO, FeO, WO and HB (Boronium) in both nano and micro scales was calculated for photon and neutron beams. Mono-energetic beams of neutrons (100-3000 keV) and photons (142-1250 keV) were used for calculations. The concrete doped with nano-sized particles showed higher neutron removal cross section (7%) and photon attenuation coefficient (8%) relative to micro-particles. Application of nano-sized material in the composition of new concretes for dual protection against neutrons and photons are recommended. For further studies, the calculation of attenuation coefficients of these nano-concretes against higher energies of neutrons and photons and different particles are suggested.

摘要

本研究对掺有一些微米和纳米级材料的普通混凝土的屏蔽性能进行了研究。使用MCNPX蒙特卡罗代码模拟窄束几何形状，并计算了掺有纳米和微米级PbO、FeO、WO和HB（硼）的普通混凝土对光子束和中子束的质量衰减系数。计算中使用了能量为100 - 3000 keV的单能中子束和能量为142 - 1250 keV的单能光子束。相对于微米级颗粒，掺有纳米级颗粒的混凝土显示出更高的中子去除截面（7%）和光子衰减系数（8%）。建议在新型混凝土组成中应用纳米级材料以实现对中子和光子的双重防护。对于进一步的研究，建议计算这些纳米混凝土对更高能量的中子和光子以及不同粒子的衰减系数。

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加载微米和纳米颗粒的普通混凝土对中子和伽马辐射的屏蔽性能。

Shielding properties of the ordinary concrete loaded with micro- and nano-particles against neutron and gamma radiations.

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