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Heavy alloy based on tungsten and bismuth: fabrication, crystal structure, morphology, and shielding efficiency against gamma-radiation

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dc.contributor.author Tishkevich, Daria I.
dc.contributor.author Rotkovich, Anastasia A.
dc.contributor.author German, Stepan A.
dc.contributor.author Zhaludkevich, Aliaksandr L.
dc.contributor.author Vershinina, Tatiana N.
dc.contributor.author Bondaruk, Anastasia A.
dc.contributor.author Razanau, Ihar U.
dc.contributor.author Dong, Mengge
dc.contributor.author Sayyed, M. I.
dc.contributor.author Leonchik, Sergey V.
dc.contributor.author Zubar, Tatiana
dc.contributor.author Silibin, Maxim V.
dc.contributor.author Trukhanovaj, Sergei V.
dc.contributor.author Trukhanov, Alex V.
dc.date.accessioned 2024-09-20T05:10:52Z
dc.date.available 2024-09-20T05:10:52Z
dc.date.issued 2023
dc.identifier.issn 2046-2069
dc.identifier.other DOI: 10.1039/d3ra04509a
dc.identifier.uri http://rep.enu.kz/handle/enu/16714
dc.description.abstract W–Bi2O3 composites were fabricated using the hot isostatic pressing technique for the first time. The duration of the samples sintering was 3 minutes under conditions of high pressure and temperature. The study of microstructural features and chemical composition of sintered samples was carried out using scanning electron microscopy and energy-dispersive X-ray spectroscopy, respectively. The effect of temperature on the quality of the obtained W–Bi2O3 composites is determined. The densest samples were obtained at a pressure of 5 GPa and temperatures of 25 °C and 500 °C, the densities of which were 18.10 and 17.85 g cm−3 , respectively. It is presented that high temperature exposure during sintering adversely affects both the composite density and microstructure due to the redox reaction accompanied by the reduction of Bi and the oxidation of W. The results of the W–Bi2O3 structure study using X-ray diffraction analysis showed that all samples included the main bulk-centered cubic W phase. The presence of the WO2 phase is noted only when the sintering temperature is increased up to 850 °C, which is confirmed by the appearance of diffraction peaks that correspond to 111 and 22−2 crystallographic planes. The shielding efficiency of the W–Bi2O3 composite against gamma radiation using the Phy-X/PSD software was evaluated. A Co60 isotope with an energy of 0.826–2.506 MeV was used as a source of gamma radiation. The calculation results were compared with those for Pb and Bi. Key shielding parameters such as the linear attenuation coefficient, halfvalue layer, tenth-value layer, mean free path, and effective atomic number are determined. The calculation results revealed that the W–Bi2O3 composite surpasses Pb and Bi in its shielding properties, which makes it promising for use as a prospective material for radiation shielding applications. ru
dc.language.iso en ru
dc.publisher RSC Advances ru
dc.relation.ispartofseries 13, 24491–24498;
dc.title Heavy alloy based on tungsten and bismuth: fabrication, crystal structure, morphology, and shielding efficiency against gamma-radiation ru
dc.type Article ru


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