Abstract
In this study, boron and lead compounds were coated on amorphous glass. Chemical bath deposition method was used for coating. Films were produced in the baths with pH: 9–12. Some of the produced films were directly analyzed, whereas some of them were analyzed after annealing at 500 °C. The characterization of the films was performed by XRD, while surface characterization was performed by SEM and EDX analysis. The study was finalized by performing radioactive analyzes of the films. Am-241 isotopes were used as the radioactive source for Alpha rays, Co-60 for Gamma rays and Sr-90 for Beta rays. According to the results, it was found that the films produced at pH: 9–10 had low optical transmittance but were able to absorb alpha and beta particles considerably. However, despite the high optical permeability of the films produced at pH: 11–12, their absorption of radioactive particles was found to be lower than the others. As a result, it was found that the absorption characteristics of the films produced at baths with different pH depend on the relative rate of boron and lead elements found on the surface.
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References
Camgöz, B., Özdemir, H.: A research on the gamma radiation shielding effectiveness of diced woven fabrics. Tekstil ve Konfeksiyon 28, 72–79 (2018)
Erdik, E., Sarıkaya, Y.: Temel Üniversite Kimyası, 13. Baskı, Gazi Kitabevi, Ankara (1999)
IAEA.: https://www.iaea.org/about/overview/history/. Accessed 24 Jan 2017 (2017)
ICRP.: http://www.icrp.org/index.asp/. Accessed 24 Jan 2017 (2017)
Kariper, İ.A.: Kimyasal Banyo Depolama Yöntemi İnce Filmlerin Optik, Yapısal Ve Elektirksel Özellikleri, Türkiye Alim Kitapları. OmniScriptum GmbH & Co. KG, Saarbrücken (2015)
Kim, G.W., Lampande, R., Choe, D.C., Ko, I.J., Park, J.H., Pode, R., Kwon, J.H.: Next generation smart window display using transparent organic display and light blocking screen. Opt. Express 26, 8493–8502 (2018)
Kobayashi, D., Miyake, M., Kakamu, T., Tsuji, M., Mori, Y., Fukushima, T., Hazama, A.: Reducing radiation exposure using commonly available objects. Environ. Health Prev. Med. 18, 261–266 (2013)
Olukotun, S.F., Gbenu, S.T., Ibitoye, F.I., Oladejo, O.F., Shittu, H.O., Fasasi, M.K., Balogun, F.A.: Investigation of gamma radiation shielding capability of two clay materials. Nucl. Eng. Technol. 50, 957–962 (2018)
Pagliolico, S.L., LoVerso, V.R.M., Torta, A., Giraud, M., Canonico, F., Ligi, L.: A preliminary study on light transmittance properties of translucent concrete panels with coarse waste glass inclusions. Energy Procedia 78, 1811–1816 (2015)
Pakma, O., Özdemir, C., Kariper, İ.A., Özaydın, C., Güllü, Ö.: Wet chemical methods for producing mixing crystalline phase ZrO2 thin film. App. Surf. Sci. 377, 159–166 (2016)
Sowby, F.D.: The recommendations of ICRP. ICRP Publications 9, Pergamon Press, Oxford (1965)
UNSCEAR (United Nations Scientific Committee on the Effect of Atomic Radiation).: Sources and effects of ionizing radiation. United Nations, New York (2008)
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This study is supported by Karabuk University BAP projects: KBÜBAP-18-DS-159.
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Kariper, İ.A., Meydaneri Tezel, F. & Usta, M. Radioactive rays shielding film: coating on amorphous glass. Opt Quant Electron 52, 424 (2020). https://doi.org/10.1007/s11082-020-02537-9
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DOI: https://doi.org/10.1007/s11082-020-02537-9