Impacts of BaO additives on the mechanical, optical and radiation shielding properties of BaO–K2O–CoO–Al2O3–B2O3 glasses
This article reports the influence of barium oxide (BaO) on mechanical and radiation
protection characteristics of BaO–K 2 O–CoO–Al 2 O 3–B 2 O 3 glass. The obtained results …
protection characteristics of BaO–K 2 O–CoO–Al 2 O 3–B 2 O 3 glass. The obtained results …
Physical, structural, elastic and optical investigations on Dy3+ ions doped boro-tellurite glasses for radiation attenuation application
A set of Dy 3+ ions doped boro-tellurite glasses is prepared using the melt quenching
method and its radiation resisting aptitude is estimated through various structural and elastic …
method and its radiation resisting aptitude is estimated through various structural and elastic …
Effect of Tm2O3 addition on the physical, structural, elastic, and radiation-resisting attributes of tellurite-based glasses
The influence of adding Tm 2 O 3 in the tellurite-based glasses is analyzed through their
physical, optical, structural, elastic, and gamma rays resisting features. The proposed …
physical, optical, structural, elastic, and gamma rays resisting features. The proposed …
Optical, Structural, Radiation shielding, and Mechanical properties for borosilicate glass and glass ceramics doped with Gd2O3
MHA Mhareb - Ceramics International, 2023 - Elsevier
In this work, we fabricated a new series of borosilicate glass doped with different
concentrations of Gd 2 O 3. Then the glass samples were converted to glass ceramics using …
concentrations of Gd 2 O 3. Then the glass samples were converted to glass ceramics using …
Experimental investigation of structural and radiation shielding features of Li2O-BaO-ZnO-B2O3-Bi2O3 glass systems
To investigate the effects of increasing the amount of Bi 2 O 3 in the glass composition, a
novel glass system was created with the following chemical composition: 5Li 2 O-5BaO …
novel glass system was created with the following chemical composition: 5Li 2 O-5BaO …
Examination of the ionizing radiation shielding behavior of the zinc boro-tellurite glasses doped with dysprosium oxide
A set of zinc boro-tellurite glasses (xDBTZ) is prepared by the melt-quenching technique.
The glasses are investigated to evaluate the shielding effectiveness. The glass stability is …
The glasses are investigated to evaluate the shielding effectiveness. The glass stability is …
[HTML][HTML] The radiation shielding competence and imaging spectroscopic based studies of Iron ore region of Kozhikode district, Kerala
Hyperspectral data and its ability to explore the minerals and their associated rocks have a
remarkable application in mineral exploration and lithological characterization. The present …
remarkable application in mineral exploration and lithological characterization. The present …
Sm3+-Doped Alumino Borophospho-Silicate Glasses: An Examination of the Optical, Structural, and Gamma-ray Protective Features
MN Vishnu Narayanan Namboothiri, KA Naseer… - Silicon, 2023 - Springer
A prime series of Sm3+-doped alumino borophospho-silicate (xABPS) glasses were
fabricated while varying the samarium ion concentration by employing the traditional melt …
fabricated while varying the samarium ion concentration by employing the traditional melt …
Investigations on physical, structural, elastic, optical and radiation shielding properties of calcium phospho-silicate glasses
KA Naseer, K Marimuthu, N Almousa… - Radiation Physics and …, 2024 - Elsevier
Exploration of reinforcing alkaline oxide modifiers into the nominal composition of 40P 2 O
5+(30‒X) CaO+ XMgO+ 9SiO 2+ 6Sr 2 F+ 6LiF+ 6BaF+ 2.5 Ce 2 O 3+ 0.5 Sm 2 O 3 (where …
5+(30‒X) CaO+ XMgO+ 9SiO 2+ 6Sr 2 F+ 6LiF+ 6BaF+ 2.5 Ce 2 O 3+ 0.5 Sm 2 O 3 (where …
[HTML][HTML] Optical, thermal and gamma ray attenuation characteristics of tungsten oxide modified: B2O3–SrCO3–TeO2–ZnO glass series
The glass series modified by tungsten oxide was created using the compounds (75-x) B 2 O
3–10SrCO 3–8TeO 2–7ZnO-xWO 3, where x= 0, 1, 5, 10, 22, 27, 34, and 40% mole …
3–10SrCO 3–8TeO 2–7ZnO-xWO 3, where x= 0, 1, 5, 10, 22, 27, 34, and 40% mole …