Determination of Gamma Radiation Shielding Characteristics for Some Iron-Based Metallic Glasses

Akman, F.

doi:10.46810/tdfd.1235560

Türk Doğa Ve Fen Dergisi

2023

DOI: 10.46810/tdfd.1235560

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Determination of Gamma Radiation Shielding Characteristics for Some Iron-Based Metallic Glasses

F. Akman

Abstract: In this study, the gamma radiation shielding characteristics of metallic glasses having Fe81B13.5Si3.5C2, Fe79B16Si5, Fe78B13Si9 and Fe40Ni38B18Mo4 components and coded as FeBSiC, FeBSi1, FeBSi2 and FeNiBMo were investigated. In order to investigate, the mass attenuation coefficients for metallic glasses in the photon energies range of 0.060 to 2.614 MeV were calculated with the help of WinXCOM program and GEANT4 and FLUKA simulation codes. The linear attenuation coefficient, half and tenth value layers, mean … Show more

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Cited by 3 publications

References 22 publications

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A benchmarking analysis on different rubber materials: towards customisation of lightweight and effective radiation protection solutions for aerospace and electronic applications

Alkarrani,

ALMisned,

Tekin

2024

J Rubber Res

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A benchmarking analysis on different rubber materials: towards customisation of lightweight and effective radiation protection solutions for aerospace and electronic applications

Alkarrani,

ALMisned,

Tekin

2024

J Rubber Res

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Prediction of mass attenuation coefficients in mixed alkali and borosilicate glasses using machine learning approaches

Abushahla,

Arslan

2025

Radiation Physics and Chemistry

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Determination of mass attenuation coefficient for common prosthetic materials utilizing Monte Carlo simulation, theoretical analysis, and XCOM software

Salehi,

Makiabadi,

Keshavarz

et al. 2024

Phys. Scr.

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The accurate calculation of radiation doses in radiotherapy necessitates precise knowledge of the mass attenuation coefficients (μ_m) of prosthetic materials. Thus, this study aims to determine the μ_m of widely used prosthetic materials through theoretical methods, Monte Carlo (MC) simulation, and the XCOM photon cross-section database for the first time. Calculations were performed for the following medical sources: Pd-103, I-125, Cs -131, Tc-99m, Ba-133, Ir-192, Au-198, Cs-137, Ra-226 and Co-60 with a range of energies between 10 keV and 2 MeV. Outcomes reveal that in all three datasets increasing the energy reduces the μ_m values for all provided materials. For instance, this value for MMA and PEG and MCNPX simulations, theoretical calculation, XCOM evaluation varies from 0.41911 to 0.09006 cm2.g-1, 0.39194 to 0.08583 cm2.g-1, 0.39790 to 0.08715 cm2.g-1, and 0.45099 to 0.09029 cm2.g-1, 0.42214 to 0.09050 cm2.g-1, 0.40040 to 0.08090 cm2.g-,1 respectively. Furthermore, for high density prosthetic materials like Steel, Titania, and Zinc oxide, μ_mis higher specifically at low energy regions compared to low density prosthetic materials, while increasing the energy from 0.021 to 1.25 MeV, a different scenario is recorded. Moreover, MCNPX results exhibit higher deviations specifically in high energy regions compared to other approaches. However, this approach remains as accurate for prosthetic attenuation evaluation. The results of this study present a detailed classification of a wide range of prosthetic materials in terms of their applications and energy levels, serving as a significant reference for future research.

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Determination of Gamma Radiation Shielding Characteristics for Some Iron-Based Metallic Glasses

Cited by 3 publications

References 22 publications

A benchmarking analysis on different rubber materials: towards customisation of lightweight and effective radiation protection solutions for aerospace and electronic applications

A benchmarking analysis on different rubber materials: towards customisation of lightweight and effective radiation protection solutions for aerospace and electronic applications

Prediction of mass attenuation coefficients in mixed alkali and borosilicate glasses using machine learning approaches

Determination of mass attenuation coefficient for common prosthetic materials utilizing Monte Carlo simulation, theoretical analysis, and XCOM software

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