VALUATION OF MILL SCALE AS ANTICORROSIVE PIGMENT BEZZINA Belgacem1

VALUATION OF MILL SCALE AS ANTICORROSIVE PIGMENT BEZZINA Belgacem1,2 1Research Centre in Industrial Technologies (CRTI), P.O.BOX 64, Cheraga 16014, Algiers, Algeria E-mail: [email protected] ABED GHARS Med Tayeb1 2Laboratory of Computational Chemistry and nanostructures LCCN, University of 8 May 1945 Guelma, Algeria. Abstract— This work focuses on the valuation of steel waste (mill scale) and its transformation to a usable product in the field of anti-corrosive paints. Their properties were compared to an anticorrosion paint trademark based on iron oxide. For this purpose various techniques of mechanical and physical-chemical analysis were used; the grinding is applied to pieces of mill scale for obtained very fine powders (LAC1>LAC7>LAC15>CAR15>CAR0>CAR1>ANTI>LAC0>CAR3>CAR7 ACKNOWLEDGMENT This work was supported by Ministry of Higher Education and Scientific Research and Research Centre in Industrial Technologies (CRTI). The authors acknowledge the iron and steel applied Research Unit (URASM-Annaba) in which this work was performed. REFERENCES 1 V.P. Della, J.A. Junkes, O.R.K. Montedo, A.P.N. Oliveira, C.R. Rambo and D. Hotza ,Synthesis of Hematite from Steel Scrap to Produce Ceramic Pigments, American Ceramic Society Bulletin. Vol. 86, pp.9101- 9108, 2007. 2 V.P. Della, J.A. Junkes, O.R.K. Montedo, A.P.N. Oliveira, C.R. Rambo and D. Hotza Heteromorphic Hematite Pigments Obtained from Steel Scrap and Encapsulated in Amorphous Silica for Porcelainized Stoneware, Journal of Materials Science and Engineering. Vol.4, pp.1-13, 2010. 3 Y. Lama, A. Sinha, G. Singh, Treatment of Endosulfan by High Carbon Iron Filings (HCIF), International Journal of Environmental Engineering and Management. Vol. 4, pp. 177-184, 2013. 4 R. Kumar, A.Sinha, Degradation of mono-azo dye in aqueous solution using cast iron filings, International Journal of Research in Engineering and Technology. Vol .02 , pp.227-231, 2013. 5 T.K. Sen, S.P. Mahajan, K.C. Khilar, Adsorption of Cu2+and Ni2+on iron oxide and kaolin and its importance on Ni2+transport in porous media,Colloids SurfacesA: Physicochem.Eng.Aspects. Vol.211, pp.91–102, 2002. 6 M.F. Schultz, M.M. Benjamin, J.F. Ferguson, Adsorption and desorption of metals on ferrihydrite: reversibility of the reaction and sorption properties of the regenerated solid, Environ. Sci. Technol. Vol.21, pp.863–869, 1987. 7 Sh.Mahmood Hama, Some Mechanical Properties of Ordinary and Polymer Concrete Containing Filling of Steel, Anbar Journal for Engineering Sciences. Vol.3, pp.102-118, 2010. 8 Ali N. Alzaed, Effect of Iron Filings in Concrete Compression and Tensile Strength, International Journal of Recent Development in Engineering and Technology. Vol 3, pp.121-125, 2014. 9 A.A. Adeyanju and K. Manohar, Effects of Steel Fibers and Iron Filings on Thermal and Mechanical Properties of Concrete for Energy Storage Application, Journal of Minerals & Materials Characterization & Engineering. Vol. 10, pp.1429-1448, 2011. 10 MA Legodi, D.Waal, Dyes and Pigm. Vol. 74, pp.161-168, 2007. 11 J. E. Kogel, N. C. Trivedi, , J.M. Barker, S.T. Krukowski, Industrial Minerals & Rocks: Commodities, Markets, and Uses, , 7th Ed ,Society for Mining, Metallurgy and Exploration Inc. (SME) , Littleton,Colorado USA ,2006 , pp. 1453-1454. 12 G. Blustein, A.R. Di Sarli, J.A. Jaén, R. Romagnolia, B. Del Amo , Study of iron benzoate as a novel steel corrosion inhibitor pigment for protective paint films, Corrosion Science .vol. 49, pp.4202–4231, 2007. 13 J.C. Laout – protection et décoration par peinture, Techniques de l’ingénieur, traité Plastiques et Composites, M 1505, pp 36.