Abstract
The present analysis gives an insight to understand the effect of load and temperature on dry gliding wear behavior of titanium and Ti/(TiB + TiC) in situ composites. Ti/(TiB + TiC) in situ composites were fabricated by blending Ti-B4C powders in different proportions to obtain desired amount of TiB and TiC particulates. At elevated temperatures, the predominant wear mechanism for titanium is adhesion and metal flow, whereas in Ti/(TiB + TiC) in situ composites the wear mechanism is oxidation and delamination.
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References
Tao X, Yao Z, Zhang S, Liao J, and Liang J, Surf Coat Technol 337 (2018) p 418.
Leyens C, and Peters M, Titanium and Titanium alloys, Wiley, Germany (2003).
Madtha S, Lee C, and Ravi Chandran K S, J Am Ceram Soc, 91 (2008) p 1319.
Panda K B, and Ravi Chandran K S, Acta Mater, 54 (2006) p 1641.
Vallauri D, Atias Adrian I C, and Chrysanthou A, J Euro Ceram Soc, 28 (2008) p 1697.
Yang Z-R, Huan H-X, Jiang C-F, Li W-M, Liu X-R, and Lyu S, Int J Precession Eng Manuf 18 (2017) 1139.
Ni D R, Geng L, Zhang J, and Zheng Z Z, Mater Sci Eng A 478 (2008) p 291.
Rigney D A, Wear of Engineering Materials. Proceedings of the ASM International, Materials Park (1998).
Radhakrishna Bhat B V, Subramanyam J, and Bhanu Prasad V V, Mater Sci Eng A 325 (2002) p 126.
Bowden F P, and Tabor D, The Influence of Surface Films on the Friction and Deformation of Surfaces in Properties of Metallic Surfaces. Institute of Metals (1953), p 197.
Tsuyu Y, Microstructure of Wear, Friction and Solid Lubrication, Tech. Rep. of Mech. Eng. Lab., Japan, 3 (1975).
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Balaji, V.S., Surendarnath, S. High-Temperature Wear Behavior of Spark-Plasma-Sintered Titanium/(TiB + TiC) In Situ Composites. Trans Indian Inst Met 72, 1669–1673 (2019). https://doi.org/10.1007/s12666-019-01622-2
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DOI: https://doi.org/10.1007/s12666-019-01622-2