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Influence of Li(2)O Incrementation on Mechanical and Gamma-Ray Shielding Characteristics of a TeO(2)-As(2)O(3)-B(2)O(3) Glass System

According to the Makishema–Mackenzie model assumption, the dissociation energy and packing density for a quaternary TeO(2)-As(2)O(3)-B(2)O(3)-Li(2)O glass system were evaluated. The dissociation energy rose from 67.07 to 71.85 kJ/cm(3), whereas the packing factor decreased from 16.55 to 15.21 cm(3)/...

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Detalles Bibliográficos
Autores principales: Almuqrin, Aljawhara H., Hanfi, Mohamed Y., Sayyed, M. I., Mahmoud, K. G., Al-Ghamdi, Hanan, Aloraini, Dalal Abdullah
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8303416/
https://www.ncbi.nlm.nih.gov/pubmed/34300979
http://dx.doi.org/10.3390/ma14144060
Descripción
Sumario:According to the Makishema–Mackenzie model assumption, the dissociation energy and packing density for a quaternary TeO(2)-As(2)O(3)-B(2)O(3)-Li(2)O glass system were evaluated. The dissociation energy rose from 67.07 to 71.85 kJ/cm(3), whereas the packing factor decreased from 16.55 to 15.21 cm(3)/mol associated with the replacement of TeO(2) by LiO(2) compounds. Thus, as a result, the elastic moduli (longitudinal, shear, Young, and bulk) were enhanced by increasing the LiO(2) insertion. Based on the estimated elastic moduli, mechanical properties such as the Poisson ratio, microhardness, longitudinal velocity, shear velocity, and softening temperature were evaluated for the investigated glass samples. In order to evaluate the studied glasses’ gamma-ray shield capacity, the MCNP-5 code, as well as a theoretical Phy-X/PSD program, were applied. The best shielding capacity was achieved for the glass system containing 25 mol% of TeO(2,) while the lowest ability was obtained for the glass sample with a TeO(2) concentration of 5 mol%. Furthermore, a correlation between the studied glasses’ microhardness and linear attenuation coefficient was performed versus the LiO(2) concentration to select the glass sample which possesses a suitable mechanical and shielding capacity.