1. Westbrook, J.H., and Fleischer, R.L., “Intermetallic Compounds: Structural Applications”, John Wiley. New York, Vol. 2, Chap. 3, 2000
2. Czeppe, T., and Wierzbinski, S., “Structure and Mechanical Properties of NiAl and Ni3Al-Based Alloys”, International Mechanical Sciences, Vol. 42, pp. 1499-1518, 2000.
3. Chrifi-Alaoui, F.Z., Nassik, M., Mahdouk, K., and Gachon, J.C., “Enthalpies of Formation of the Al–Ni Intermetallic Compounds”, Alloys and Compounds, Vol. 364, pp. 121–126, 2004.
4. Mohammadnezhad, M., Shamanian, M., and Enayati, M.H., “Formation of Nanostructured NiAl Coating on Carbon Steel by Using Mechanical Alloying” Applied Surface Science, Vol. 263, pp. 730–736, 2011.
5. Liu, E., Jia, G., Bai,Y., Wang, W., and Gao, Y., “Study on Preparation and Mechanical Property of Nanocrystalline NiAl Intermetallic”, Materials and Design. Vol. 53, pp. 596–603, 2014.
6. Guo, J., Wang, Z., Sheng, L., Zhou, L., Yuan, C., Chen, Z., and Song, L., “Wear Properties of NiAl Based Materials”, Progress in Natural Science: Materials International, Vol. 22(5), pp. 414–425, 2012.
7. Tian, W.H., Hu, S.L., and Nemoto, M., “Effect of Cr addition on Microstructures and Mechanical Properties of β-NiAl Alloys” Acta Metallurgical Sinica, Vol. 12, No. 2, pp. 173- 180, 1999.
8. Tsaur, C.C., Rock, J.C., and Chang, Y., “The Effect of NaCl Deposit and Thermal Cycle on an Aluminide Layer Coated on 310 Stainless Steel” Materials Chemistry and Physics, Vol. 91, pp. 330–337, 2005.
9. Enayati, M. H., Karimzadeh, F., Jafari, M., Markazi, A., and Tahvilian, A., “Microstructural and Wear Characteristics of HVOF-Sprayed Nanocrystalline NiAl Coating”, Wear, Vol. 309, pp. 192–199, 2014.
10. Zhou, C., and Min, Q., “Hot Corrosion Behavior of Co Modified NiAl Coating on Nickel Base Superalloys”, Corrosion Science, Vol. 63, pp. 239-245, 2012.
11. Leyens, C., Pint, B.A., and Wright, I.J., “Effect of Composition on the Oxidation and Hot Corrosion resistance of NiAl Doped with Precious Metals”, Surface and Coatings Technology, Vol. 133-134,
pp. 15-22, 2000.
12. Task, M., Gleeson, B., and Pettit, F., “Compositional Effects on the Type I Hot Corrosion of β-NiAl Alloys”, Surface and Coatings Technology, Vol. 206, pp. 1552–1557, 2011.
13. Rastegari, S., Arabi, H., Aboutalebi, M. R., and Eslamia, A., “Study on the Microstructural Changes of Cr-Modified Aluminide Coatings on a Nickel-Based Superalloy during Hot Corrosion”, Canadian Metallurgical Quarterly, Vol. 47, No. 2, pp. 223-232, 2008.
14. Chen, J. H., Chen, P.N., Lin, C.M., Chang, C.M., Chang, Y.Y., and Wu, W., “Microstructure and Wear Properties of Multicomponent Alloy Cladding Formed by Gas Tungsten Arc Welding (GTAW)”, Surface And Coatings Technology, Vol. 203,
pp. 3231–3234, 2009.
15. ASTM E975-00, “Standard Practice for X-Ray Determination of Retained Austenite in Steel with near Random Crystallographic Orientation”, ASTM Book of Standards; Vol. 03.01, West Conshohocken, Pa, United States, pp. 1-6. In. (accessed), 2004.
16. Cotton, J.D., Noebe, R.D., and Kaufman, M.J., “The Effects of Cr on β-NiAl Intermetallic Alloys. Part І. Microstructures and Mechanical Properties”, Intermetallics, Vol. 1, pp. 3-20, 1993.
17. Brunetti, C., D'Oliveira, A., Pintaude, G., and Yano, D., “Modification of NiAl Intermetallic Coatings Processed by PTA with Chromium Carbides”, Journal of ASTM International, Vol. 8, pp. 150-161, 2011.
18. Pauschitz, A., Roy, M., and Franek, F., “Mechanisms of Sliding Wear of Metals and Alloys at Elevated Temperatures”, Tribology International, Vol. 41,
pp. 584–602, 2008.
19. Brunetti, C., Belotti, L.P., Miyoshi, M.H., Pintaúde, G., and D'Oliveira, A.S.C.M., “Influence of Fe on the Room and High-Temperature Sliding Wear of NiAl Coatings”, Surface & Coatings Technology,
Vol. 258, pp. 160–167, 2014.
20. Munroe, P.R., George, M., Baker, I., and Kennedy, F.E., “Microstructure, Mechanical Properties and Wear of Ni–Al–Fe Alloys”, Materials Science and Engineering A, Vol. 325, pp.1–8, 2002.
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