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Aneta Magdziarz, Monika Kuźnia, Michał Bembenek, Paweł Gara and Marek Hryniewicz

References Ballajee S.R., Callaway P.E., Keilman L.M., Lohman L.J., 1995. Production and BOF recycling of waste oxide briquettes at Inland Steel. Proceedings of 78th Steelmaking Conference. Nashville, TN US, 2-5 April 1995, 51-66. Dukelow D.A., Werner J.P., Smith N.H., 1995. Use of waste oxides in the Great Lakes BOP. Proceedings of 78th Steelmaking Conference. Nashville, TN US, 2-5 April 1995, 67-72. Guezennec A-G., Huber J-C., Patisson F., Sessiecq P., Birat J-P., Ablitzer D., 2005. Dust formation in Electric

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Boguslaw Pierozynski and Henryk Bialy

. 7. Kautek, W. (1988). The galvanic corrosion of steel coatings: aluminum in comparison to cadmium and zinc. Corr. Sci . 28(2), 173–199. DOI: 10.1016/0010-938X(88)90094-7. 8. Magnelis® , , last accessed (07/04/2017). 9. Hamlaoui, Y., Pedraza, F. & Tifouti, L. (2007). Comparative study by electrochemical impedance spectroscopy (EIS) on the corrosion resistance of industrial and laboratory zinc coatings. Am. J. Appl. Sci . 4(7), 430–438. DOI: 10.3844/ajassp.2007.430.438. 10. Salgueiro Azevedo, M., Allely, C

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Shipra Jaswal and Bharti Gaur

). Thermal and mechanical behavior of cotton/vinylester composites: Effects of some flame retardants and fibre treatment. J. Reinf. Plast. Compos. 32, 681. DOI: 10.1177/0731684413475911. 4. Stankiewicz, A., Szczygiel, I. & Szczygiel, B. (2013). Self-healing coating in anti-corrosion applications. J. Mater. Sci. 48, 8041–8051. DOI: 10.1007/s10853-013-7616-y. 5. Yabuki. A. & Okumura, K. (2012). Self healing coatings using superabsorbent polymers for corrosion inhibition in carbon steel. Corros. Sci. 59, 258–262. DOI: 10.1016/j.corsci.2012.03.007. 6. Ehsani

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Piotr Homa, Beata Tryba and Andżelika Gęsikiewicz-Puchalska

., Raju, N. & Subrahmanyam, A. (2011). Thickness dependent physical and photocatalytic properties of ITO thin fi lms prepared by reactive DC magnetron sputtering. Appl. Surf. Sci. 257, 3075-3080. DOI: 10.1016/j.apsusc.2010.10.119. 26. Chen, Y. & Dionysiou, D. (2006). Correlation of structural properties and fi lm thickness to photocatalytic activity of thick TiO2 fi lms coated on stainless steel. Appl. Catal. B. 69, 24-33. DOI: 10.1016/j.apcatb.2006.05.002. 27. Wu, C., Lee, Y., Lo, Y., Lin, C. & Wu, C. (2013). Thickness- dependent

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Ali Parsa and Maryam Tajik

and selective polyaniline thin-film sensors for detecting SF6 decomposition products at room temperature. Synth. Met. 200(0), 74–79. DOI: 10.1016/j.synthmet.2014.12.033. 4. Niaura, G., Mazeikiene, R. & Malinauskas, A. (2004). Structural changes in conducting form of polyaniline upon ring sulfonation as deduced by near infrared resonance Raman spectroscopy. Synth. Met. 145(2–3), 105–112. DOI: 10.1016/j.synthmet.2004.04.010. 5. Anilkumar, P. & Jayakannan, M. (2007). Single-Molecular-System-Based Selective Micellar Templates for Polyaniline Nanomaterials

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Ali Khani and Mahmoud Reza Sohrabi

as a thin nanostructured film on quartz. J. Catal., 225(2), 408-416. DOI: 10.1016/j.jcat.2004.04.019. 30. Shang, J., Li, W. & Zhu, Y. (2003). Structure and photocatalytic characteristics of TiO2 film photocatalyst coated on stainless steel webnet. J. Mol. Catal. A, 202(1-2), 187-183. DOI: 10.1016/S1381-1169(03)00200-0. 31. Ao, C.H., Lee, S.C. & Yu, J.C. (2003). Photocatalyst TiO2 supported on glass fiber for indoor air purification: effect of NO on the photodegradation of CO and NO2. J. Photochem. Photobiol. A, 156(1-3), 171-177. DOI