Radiation Shielding efficiency of lead-tungsten-boron glasses with Sb, Al, and Bi against gamma, neutron and charge particles
KM Katubi, RA Alsulami, MM Albarqi… - Applied Radiation and …, 2024 - Elsevier
We report on newly developed nuclear shielding glass system based on lead-tungsten-
boron (PWB) for radiation applications against photon, neutron and charge particles. This …
boron (PWB) for radiation applications against photon, neutron and charge particles. This …
[HTML][HTML] Synthesis and optimization of alkaline earth borate glasses doped with Fe2O3: Significance of BaO/MgO on the physical, structural features and radiation …
Abstract In this study, MgO–BaO–B 2 O 3–Fe 2 O 3 glasses were synthesized using the
conventional melt and quench method, and the role of BaO and MgO in dictating their …
conventional melt and quench method, and the role of BaO and MgO in dictating their …
Fabrication and characterisation of TeO2-based composite doped with Yb3+ and Bi3+ for enhanced radiation shielding safety
Heavy metal and rare earth ions are known for altering the optical and radiation
transmission data of glasses. This study presents the influence of Yb 3+ and Bi 3+ on the …
transmission data of glasses. This study presents the influence of Yb 3+ and Bi 3+ on the …
Physical, chemical and radiation shielding properties of metakaolin-based geopolymers containing borosilicate waste glass
Upcycling waste borosilicate glass (BS) is a viable and sustainable way of preserving the
natural resources required for the production of new materials and ensuring environmental …
natural resources required for the production of new materials and ensuring environmental …
Optical properties, elastic moduli, and radiation shielding performance of some waste glass systems treated by bismuth oxide
This work reported on the optical properties, elastic moduli, and shielding performance,
against charged particles and neutrons, of some waste glass systems, cathode-ray tubes …
against charged particles and neutrons, of some waste glass systems, cathode-ray tubes …
High thermal stability molybdenum-boosted lithium tellurite glass for radiation shielding
A novel glass system was developed using the melt-quenching technique. The primary aim
was to investigate molybdenum-rich compositions (MoO 3> Li 2 O), with the general formula …
was to investigate molybdenum-rich compositions (MoO 3> Li 2 O), with the general formula …
Effect of Eu3+ ions concentration on visible red luminescence and radiative shielding properties of SrO–Al2O3–BaCl2–B2O3–TeO2 glasses
Abstract Trivalent europium (Eu 3+) ions doped 10SrO-(10-x) Al 2 O 3–10BaCl 2–60B 2 O 3–
10TeO 2 glasses were fabricated by the melt-and-quenching technique and characterized …
10TeO 2 glasses were fabricated by the melt-and-quenching technique and characterized …
Enhanced physical, optical and radiation shielding properties of tungsten modified potassium boro-tellurite glass systems: Theoretical approach
SM Ngaram, S Hashim, MSM Sanusi… - Radiation Physics and …, 2025 - Elsevier
Boro-tellurite glasses in the (70-x) B 2 O 3–5TeO 2–10Bi 2 O 3–10SrCO 3–5K 2 CO 3-xWO
3 system, with varying WO 3 content (x= 0, 1, 2, 3, 4 and 5 mol%), were synthesized using …
3 system, with varying WO 3 content (x= 0, 1, 2, 3, 4 and 5 mol%), were synthesized using …
Radiation shielding capacity of Li2O-SiO2/GeO2 glasses doped with rare earth oxides: Nuclear security applications
In the present work, the ionizing radiation (namely, gamma-rays, charged particles, and
neutrons) attenuation parameters of Li 2 O–SiO 2 (denoted as LS) and Li 2 O–SiO 2–GeO 2 …
neutrons) attenuation parameters of Li 2 O–SiO 2 (denoted as LS) and Li 2 O–SiO 2–GeO 2 …
Influence of Sm/Bi substitution on synthesis, structural, and photon interaction properties of TeO MoO3 BaO Sm2O3 Bi2O3 glass system
In this this paper, five transparent and non-toxic glasses with the chemical identity: 75TeO
single bond 10MoO 3 single bond 10BaO single bond (5-x) Sm 2 O 3 single bond xBi 2 O 3 …
single bond 10MoO 3 single bond 10BaO single bond (5-x) Sm 2 O 3 single bond xBi 2 O 3 …