Efficiency of flexible shielding materials against gamma rays: Silicon rubber with different sizes of Bi2O3 and SnO

Efficiency of flexible shielding materials against gamma rays: Silicon rubber with different sizes of Bi2O3 and SnO

In this study, the efficiency of flexible composites consisting of viscous silicone rubber as matrix and micro- and nanoparticles of Bi2O3 and SnO2 as fillers was investigated. Four composites with a matrix/filler at 50:50 were prepared. The four samples are the liquid silicone rubber (LSR) material...

Full description

Saved in:
Bibliographic Details
Main Authors: Sayyed M. I., Almuqrin Aljawhara H., Al-Balawi Shoaa M., Hedaya Ali., Elsafi Mohamed
Format: Article
Language:English
Published: De Gruyter 2025-07-01
Series:e-Polymers
Subjects:
attenuation coefficient
flexible apron
gamma ray
liquid silicone rubber
radiation shielding efficiency
Online Access:https://doi.org/10.1515/epoly-2025-0031
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In this study, the efficiency of flexible composites consisting of viscous silicone rubber as matrix and micro- and nanoparticles of Bi2O3 and SnO2 as fillers was investigated. Four composites with a matrix/filler at 50:50 were prepared. The four samples are the liquid silicone rubber (LSR) materials with micro-Bi2O3, micro-Bi2O3, and nano-SnO, nano-Bi2O3, and nano-SnO, and both nano-Bi2O3 and nano-SnO are labeled as LSR-Micro, LSR-Micro/Nano, LSR-Nano/Micro, and LSR-Nano/Nano, respectively. The morphologies and the homogeny of the nanoparticles and the prepared composites were checked by scanning electron microscopy. The efficiency of shielding characteristics was investigated experimentally by the narrow-beam technique using a lead collimator, different gamma-point sources, and a semiconductor detector. The results showed that at both energies, the composites that contain a combination of micro- and nanoparticles have higher linear attenuation coefficient (LAC) values than the composites with only micro- or nanoparticles. For example, at 0.060 MeV, the LACs are 5.592, 6.391, 6.412, and 6.202 cm−1 for LSR-Micro, LSR-Micro/Nano, LSR-Nano/Micro, and LSR-Nano/Nano, respectively, while at 0.662 MeV, they are, respectively, 0.185, 0.204, 0.210, and 0.199 cm−1. The prepared composites were compared with commercial lead aprons of different thicknesses, and the results demonstrated the efficiency of the prepared flexible composites against gamma radiation, in addition to their lightweight and environmental safety.
ISSN:1618-7229

Similar Items