Nuclear Engineering and Technology

  • 제54권12호
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  • Pages.4708-4714
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  • 2022
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  • 1738-5733(pISSN)
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  • 2234-358X(eISSN)
한국원자력학회 (Korean Nuclear Society)
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Radiation parameterizations and optical characterizations for glass shielding composed of SLS waste glass and lead-free materials

  • 투고 : 2022.05.17
  • 심사 : 2022.08.10
  • 발행 : 2022.12.25
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⟨ 이전 논문 다음 논문 ⟩

초록

The novelty in the present search, the Soda-Lime-Silica (SLS) glass waste to prepare free lead glass shielding was used in order to limit the accumulation of glass waste, which requires extensive time to decompose. This also saves on the consumption of pure SiO2, which is a finite resource. Furthermore, the combining of BaO with Bi2O3 into a glass network leads to increased optical properties and improved attenuation. The UV-Visible Spectrophotometer was used to investigate the optical properties and the radiation shielding properties were reported for current glass samples utilizing the PhysX/PDS online software. The optical property results indicate that when BaO content increases in glass structure, the Urbach energy ΔE, and refractive index n increases while the energy optical band gap Eopt decreases. The result of the metallisation criteria (M) revealed that the present glass samples are nonmetallic (insulators). Furthermore, the radiation shielding parameter findings suggest that when BaO was increased in the glass structure, the linear attenuation coefficient and effective atomic number (Zeff) rose. But the half-value layer HVL declined as the BaO concentration grew. According to the research, the glass samples are non-toxic, transparent to visible light, and efficient radiation shielding materials. The Ba5 sample is considered the best among all the samples due to its higher attenuation value and lower HVL and MFP values, which make it a suitable candidate as transparent glass shield shielding.

키워드

과제정보

The authors appreciate Universiti Sains Malaysia (USM) for the research facilities. Appreciation also goes to the Ministry of Higher Education, Malaysia, for the financial support towards this research under the Fundamental Research Grant Scheme with project code FRGS/1/2019/STG07/USM/02/19 and project ID 17443 (203/PFIZIK/6711769).

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