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Multilayer Structuring of Nonleaded Metal (BiSn)/Polymer/Tungsten Composites for Enhanced γ‐Ray Shielding

Hoyeon Kim, Junyoung Lim, Jihun Kim, Jungil Lee, Yongsok Seo

2020Advanced Engineering Materials19 citationsDOI

Abstract

To effectively attenuate unrecognized and/or unwanted exposures to high‐energy γ‐rays which leads to occupational hazards when accumulated in a wide range of industries, nonleaded metal (bismuth(Bi)‐tin(Sn))/polymer and tungsten (W) composites are prepared and tested. A eutectic alloy, BiSn, with a low melting temperature of 139 °C, is applied for the first time to prepare a γ‐ray shielding material. Compounding of the BiSn alloy/polymer is conducted in a twin screw mixer/extruder by exploiting the alloy's low melting temperature. Multilayer BiSn/polymer composites are prepared by pressing the extruded composites. The γ‐ray shielding efficiency of the composite is elucidated on the basis of the K‐edge theory. To make a thinner but more efficient composite, W flakes are laminated onto the BiSn/polymer composite sheet. The produced (BiSn/polymer)/W composite sheet exhibits strong attenuation of γ‐rays, which is found to follow the Beer–Lambert law. A multilayer (BiSn/polymer)/W laminate can offer both a sufficient thickness with flexibility and an effective shielding against γ‐rays to meet the requirements for protective clothing or protective equipment. This work demonstrates that (BiSn/polymer)/W laminates can be used as a reliable Pb‐substitution material to protect the human body from the high‐energy γ‐rays.

Topics & Concepts

Materials scienceComposite materialElectromagnetic shieldingPolymerComposite numberAlloyTungstenMetallurgyRadiation Shielding Materials AnalysisGraphite, nuclear technology, radiation studiesNuclear and radioactivity studies