bi2o3 - b2o3 - na2wo4玻璃体系的γ射线屏蔽及结构性能

M. Dogra, Kulbir Singh, Kulwinder Kaur, V. Anand, Parminder Kaur
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引用次数: 5

摘要

包括核电厂、核反应堆、核医学、农业和工业在内的几个部门的伽马射线源和放射性物质对人类有有害影响,因此必须提供屏蔽伽马辐射的屏障。伽马辐射是环境中穿透性很强的电磁辐射。目前的工作旨在探索新的玻璃成分用于伽马射线屏蔽应用。利用国家标准技术研究院开发的XCOM计算机软件,计算了x Bi2O3-0.6 B2O3-(0.4 - x)Na2WO4.2H2O在x = 0.1 ~ 0.3摩尔分数范围内光子能量为662、1173和1332 keV时的质量衰减系数和半值层参数,研究了x Bi2O3-0.6 B2O3-(0.4 - x)Na2WO4.2H2O的γ射线屏蔽性能。与重晶石混凝土相比,玻璃体系的质量衰减系数较高,HVL较低,表明玻璃体系具有较好的屏蔽γ辐射性能。通过密度、摩尔体积、XRD和uv -可见等研究了所制备的玻璃体系的结构性能。从所得结果分析可知,制备的玻璃样品的密度随着重金属氧化物Bi2O3含量的增加而增加。XRD研究证实了玻璃成分的无定形性质。与标准的核辐射屏蔽混凝土和市售玻璃相比,硼酸铋钨酸盐玻璃对γ辐射的屏蔽效果更好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gamma Ray Shielding and Structural Properties of Bi 2 O 3 -B 2 O 3 -Na 2 WO 4 Glass System
Gamma ray sources and radioactive materials in several sectors including nuclear power plants, nuclear reactors, nuclear medicine, agriculture and industry have harmful effects on humans and it is essential to provide shield against gamma radiations. Gamma radiations are highly penetrating electromagnetic radiations in the environment. The present work is aimed at exploring new glass composition for gamma ray shielding applications. Gamma ray shielding properties of the composition x Bi2O3-0.6 B2O3-(0.4 - x)Na2WO4.2H2O where x = 0.1 to 0.3 (in mole fraction) have been studied by calculating mass attenuation coefficients and half value layer parameters at photon energies 662, 1173 and 1332 keV using XCOM computer software developed by National Institute of Standards and Technology. Higher values of mass attenuation coefficients and lower values of HVL than barite concrete indicate the glass system as better gamma radiation shield. Density, molar volume, XRD and UV-Visible studies have been performed to study the structural properties of the prepared glass system. From the analysis of obtained results, it is reported that density of the prepared glass samples increases with the content of heavy metal oxide Bi2O3. XRD studies confirm the amorphous nature of the glass composition. It has been concluded that bismuth borate tungstate glasses are better shields for γ-radiations in comparison to the standard nuclear radiation shielding concretes and commercially available glasses.
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