Abstract
In the present work, \(\mathrm{Ti}_{3}\)Al and \(\mathrm{Ni}_{3}\)Al coatings were carry out on AISI 1010 steel by pressure assisted combustion synthesis method in open atmosphere under an uniaxial pressure of 150 MPa at 1050 \(^{\circ }\)C for 60 min. Starting powders were used titanium powder with \(45\,\upmu \)m size, aluminium powder with 15\(\,\upmu \)m and nickel powder with 4–7 \(\upmu \)m size having 99.5, 99 and 99.8 % purity, respectively. Microstructural examinations showed that the \(\mathrm{Ti}_{3}\)Al coating has multi-phase microstructure with porosity. The XRD patterns of the test sample indicated that the TiAl, \(\mathrm{Ti}_{3}\)Al, \(\mathrm{Ti}_{3}\)O and Ti phases. The hardness value of \(\mathrm{Ti}_{3}\)Al coating layer was about 520 \(\pm \) 6.9 Hv\(_{0.05}\). Microstructural and XRD examinations showed that the \(\mathrm{Ni}_{3}\)Al coating has only single-phase microstructure and \(\mathrm{Ni}_{3}\)Al phase is present. The hardness value of \(\mathrm{Ni}_{3}\)Al coating layer was about 377.7 \(\pm \) 20.6 Hv\(_{0.05}\).
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Acknowledgments
This work was supported by the Sakarya University Scientific Research Foundation (Project Number: 2008-50-01-013).
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Ergin, N., Yoruk, G., Ozdemir, O. (2014). Production of \(\mathrm{Ni}_{3}\)Al and \(\mathrm{Ti}_{3}\)Al Based Coating by Using Pressure Assisted Combustion Synthesis. In: Polychroniadis, E., Oral, A., Ozer, M. (eds) International Multidisciplinary Microscopy Congress. Springer Proceedings in Physics, vol 154. Springer, Cham. https://doi.org/10.1007/978-3-319-04639-6_4
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DOI: https://doi.org/10.1007/978-3-319-04639-6_4
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