Gamma-ray Spectrometry and X-ray Fluorescence Analysis for Natural Radioactivity Evaluation Associated with Radiation Hazard in Construction Materials

IF 0.5 Q4 PHYSICS, MULTIDISCIPLINARY

Jordan Journal of Physics Pub Date : 2023-06-30 DOI:10.47011/16.2.8

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Abstract

Abstract: This paper had threefold objectives: 1) to evaluate the natural radioactivity using the gamma spectrometry technique, 2) to correct the gamma self-absorption using the transmission method, and 3) to perform mineralogical analysis using the X-ray fluorescence (XRF) analyzer in seven different types of construction materials. The transmission method was used to measure the linear attenuation coefficient µ(E) of the samples as well as their standards at different energetic points. Next, the µ(E) coefficients were used to calculate the self-absorption correction factors (Cauto), and then they were introduced in a simplified formula to correct the fraction of the attenuated gamma radiation inside the traveled medium. Moreover, the quantitative assessment of natural radioactive elements (238U, 232Th, and 40K) was done in different geological matrices. The results have shown that the mean absorbed dose and the annual average dose received by these materials are 40.65 nGy.h-1and 0.2 mSv.y-1, respectively. According to the United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR), the obtained values in no way pose a risk to human health. For compositional analysis, the X-ray fluorescence (XRF) analyzer was used to determine the concentrations of the major oxides (SiO2, CaO, CO2, and Al2O3) along with other oxides in all collected samples. The compositional results show that the self-absorption correction factors varied depending on the density and chemical composition of a sample. The XRF data shows that the mineralogical compositions are within their recommended limit. Thus, from a health safety perspective, the composition of the minerals does not pose any significant risks. Keywords: Gamma Spectrometry, Natural Radioactivity, Construction Materials, Radiological Hazard, Self-Absorption. PACS NaI(Tl): Sodium iodide (NaI) detector activated by thallium (Tl), XRF: X-Ray Fluorescence.

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与建筑材料辐射危害相关的天然放射性评价的伽马射线能谱法和x射线荧光分析

摘要/ Abstract摘要:本文的目的有三个:1)利用伽马能谱法评价天然放射性，2)利用透射法校正伽马自吸收，3)利用x射线荧光(XRF)分析仪对七种不同类型的建筑材料进行矿物学分析。透射法测量了样品在不同能量点的线性衰减系数µ(E)及其标准值。接下来，利用µ(E)系数计算自吸收校正因子(Cauto)，然后将其引入简化公式中，以校正传播介质内衰减的伽马辐射的比例。此外，对不同地质基质中天然放射性元素(238U、232Th和40K)进行了定量评价。结果表明，这些物质的平均吸收剂量为40.65 ngy .h-1，年平均接受剂量为0.2 mSv。分别y-1。根据联合国原子辐射影响科学委员会(辐射科委会)的说法，所获得的数值绝不会对人类健康构成风险。对于成分分析，使用x射线荧光(XRF)分析仪测定了所有样品中主要氧化物(SiO2, CaO, CO2和Al2O3)以及其他氧化物的浓度。结果表明，自吸收校正因子随样品的密度和化学成分的不同而变化。XRF数据表明，矿物成分在推荐限量范围内。因此，从健康安全的角度来看，这些矿物的成分不会构成任何重大风险。关键词:伽马能谱法，天然放射性，建筑材料，辐射危害，自吸收PACS NaI(Tl):由铊(Tl)激活的碘化钠(NaI)探测器，XRF: x射线荧光。

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来源期刊

Jordan Journal of Physics PHYSICS, MULTIDISCIPLINARY-

CiteScore

0.90

自引率

14.30%

发文量