Abstract
Ti-6Al-4V samples were plasma nitrided at 520°C in two environments (nitrogen and a mixture of nitrogen and hydrogen in the ratio of 3:1) for two different time periods (4 h and 18 h). Fretting wear tests were conducted on unnitrided and nitrided samples for 50,000 cycles using two counterbody materials (unnitrided Ti-6Al-4V and alumina). Gross slip prevailed at a normal load of 4.9 N while mixed stick-slip prevailed at 9.8 N. Tangential force coefficient values of plasma nitrided samples were lower than those of unnitrided samples. The tangential force coefficient nearly stabilised after thousand cycles in case of samples tested against Ti-6Al-4V counterbody. On the other hand, it showed a continuously increasing trend in case of specimens tested against alumina counterbody. The samples nitrided for 4 h exhibited higher hardness and lower tangential force coefficient compared to the specimens nitrided for 18 h. The samples nitrided in nitrogen-hydrogen mixture environment exhibited higher hardness and lower tangential force coefficient compared to the specimens nitrided in nitrogen. The samples plasma nitrided in nitrogen-hydrogen mixture for 4 h exhibited the highest hardness and the lowest tangential force coefficient. The wear volume of the plasma nitrided samples was lower than that of the unnitrided samples. Owing to tribochemical reactions, the wear volume of unnitrided and nitrided samples fretted against alumina ball was higher than that of the samples fretted against Ti-6Al-4V. A consistent trend was not observed regarding which nitriding condition would result in lower wear volume at different loads.
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References
Waterhouse R B, Occurrence of Fretting in Practice and its Simulation in the Laboratory, pp 3–16. in Materials Evaluation under Fretting Conditions, ASTM STP 780, American Society for Testing and Materials, Philadelphia, (1982).
Dobromirski J M, Variables of Fretting Process: Are there 50 of them?, in M. Helmi Attia and R.B. Waterhouse (eds.) Standardization of Fretting Fatigue Tests and Equipment. ASTM STP 1159, American Society for Testing and Materials, Philadelphia, (1992) 60.
Morita T, Takahashi H, Shimizu M and Kawasaki K, Fatigue Fracture Engg Mater Structures, 20 (1997) 85.
Grill A, Raveh A, and Avni R, Surf. Coat. Technol., 43–44 (1990) 745.
Raveh A, Bussiba A, Beltelhcim A and Katz Y, Surf. Coat. Technol., 57 (1993) 19.
Vadiraj A and Kamaraj M, Tribology Inter., 40 (2007) 82.
Rajasekaran B and Ganesh Sundara Raman S, Mater. Letters, 62 (2008) 2473.
Ramesh R and Gnanamoorthy R, Mater. Design, 27 (2006) 141.
Kalin M and Vizintin J, Wear, 237 (2000) 39.
Mubarak Ali M, Ganesh Sundara Raman S, Pathak S D and Gnanamoorthy R, Tribology Inter., (communicated).
Tressler R E, Moore T L and Crane R L, J. Mater. Sci., 8 (1973) 151.
Hutchings I M, Tribology: Friction and Wear of Engineering Materials, Arnold, London, (1992).
Vingsbo O and Soderberg S, Wear, 126 (1988) 131.
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Mubarak Ali, M., Ganesh Sundara Raman, S., Pathak, S.D. et al. Fretting wear behaviour of plasma nitrided Ti-6Al-4V fretted against unnitrided Ti-6Al-4V and alumina counterbodies. Trans Indian Inst Met 62, 59–64 (2009). https://doi.org/10.1007/s12666-009-0008-y
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DOI: https://doi.org/10.1007/s12666-009-0008-y