Novel Strategy for Hazardous Cement Bypass Dust Removal: Structural, Optical and Nuclear Radiation Shielding Properties of CBD-Bismuth Borate Glass

Abstract Herein, this study introduced a novel strategy for hazardous cement bypass dust (CBD) removal via incorporated it into glassy system having the chemical formula 10Li 2 O–10Bi O 3 –(80 ? x)B –xCBD, where x = 0, 10, 20 and 30%. The doped glass samples with CBD were used as radiation shielding material. structural, optical nuclear properties of CBD-lithium bismuth borate (LBB) investigated. energy gap increases from 2.22 eV LBB + 0% sample to 2.66 30% sample. Also, comparative between experimental data theoretical interpretation attenuation coefficients was addressed Phy-X software database. outcomes unveiled that parameters such linear coefficient, mass effective atomic number enhanced content increases. In same time, half-value layer, tenth value mean free path are reduced enrichment in content. Furthermore, exposure build-up factor is inversely related equivalent numbers. Based on these findings, determined manufactured lithium-borate can be purposes.