Multilayer radiation shielding system with advanced composites containing heavy metal oxide nanoparticles: a free-lead solution

Abstract: With the use of multilayer materials such as concrete, mortar and ceramics that were fortified with PbO, WO3 and Bi2O3 nanoparticles, our study's objective was to produce a an effective photon shielding system. Experimental evaluation of the radiation shielding efficiency of two sets of samples with various thicknesses was conducted. The elemental content and morphology of the samples were corroborated by SEM and EDX studies, with ceramic samples exhibiting superior particle distribution and fewer voids than c… Show more

“…However, based on the polymer [ 36 , 37 ] and glass [ 38 ] technology experiences, in order to properly and effectively improve the radiation shielding of material it is necessary to use a combination of particles countering specific radiation sources [ 39 ]. It can be achieved either by mixing particular materials separately or by producing advanced functional fillers such as W/Gd 2 O 3 structures [ 40 , 41 ] or cobalt-doped titania nanocomposites [ 42 ].…”

Functional Bi2O3/Gd2O3 Silica-Coated Structures for Improvement of Early Age and Radiation Shielding Performance of Cement Pastes

“…However, based on the polymer [ 36 , 37 ] and glass [ 38 ] technology experiences, in order to properly and effectively improve the radiation shielding of material it is necessary to use a combination of particles countering specific radiation sources [ 39 ]. It can be achieved either by mixing particular materials separately or by producing advanced functional fillers such as W/Gd 2 O 3 structures [ 40 , 41 ] or cobalt-doped titania nanocomposites [ 42 ].…”

Functional Bi2O3/Gd2O3 Silica-Coated Structures for Improvement of Early Age and Radiation Shielding Performance of Cement Pastes

Experimental Investigation of the Radiation Shielding Performance of a Newly Developed Silicon-Epoxy Resin Doped with WO3 Micro/Nanoparticles