Mechanical property evaluation of tellurite–germanate glasses and comparison of their radiation-shielding characteristics using EPICS2017 to other glass systems

In this study, four tellurite–germanate glasses containing zinc, lithium, and bismuth with varied Bi and TeO amounts were investigated. The mechanical qualities of sample glasses were investigated and associated with their structural properties. Furthermore, the radiation-shielding capabilities of N...

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Bibliographic Details
Published in:Open Chemistry 2022-04, Vol.20 (1), p.361-369
Main Authors: Almuqrin, Aljawhara H., Sayyed, M. I., Jecong, J. F. M., Prabhu, Nimitha S., Raviprakash, Y., Kamath, Sudha D.
Format: Article
Language:English
Subjects:
EPICS2017
mechanical and radiation-shielding properties
tellurite–germanate glasses
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Summary:In this study, four tellurite–germanate glasses containing zinc, lithium, and bismuth with varied Bi and TeO amounts were investigated. The mechanical qualities of sample glasses were investigated and associated with their structural properties. Furthermore, the radiation-shielding capabilities of N1–N4 glasses were evaluated at 0.662 MeV using EPICS2017. The radiation-shielding characteristics were compared with the radiation-shielding parameters published in the literature for various glass systems. When TeO was replaced with Bi , Young’s and bulk moduli of the material decreased. The values of glasses were higher than their values (14–13 GPa), indicating that they can tolerate longitudinal stress better than shear stress and can be bent rather than elongated readily. The MACs calculated were comparable to those obtained using WinXcom. The tenth-value layer (TVL) of all of the sample glasses was higher than that of the bismuth aluminosilicate glasses. All of the borate glass systems containing bismuth, sodium, and antimony had lower TVLs than N1–N3 glasses. The half-value layer was more in the N4 glass with the greatest Bi content than those in 50 and 60 mol% PbO-containing strontium borate glasses.
ISSN:2391-5420
2391-5420
DOI:10.1515/chem-2022-0151