Influence of Oxynitriding on Antifriction Properties of Ti–6Al–4V Titanium Alloy

Egol, K.A., Kubiak, E.N., Fulkerson, E., Kummer, F.J., and Koval, K.J., Biomechanics of locked plates and screws, J. Orthop. Trauma, 2004, vol. 18, no. 8, pp. 488–493.

Ricci, W.M., Tornetta, P., Petteys, T., Gerlach, D., Cartner, J., Walker, Z., and Russell, T.A., A comparison of screw insertion torque and pullout strength, J. Orthop. Trauma, 2010, vol. 24, no. 6, pp. 374–378.

Dos Santos, C.T., Barbosa, C., de Jesus Monteiro, M., de Cerqueira Abud, I., Vieira Caminha, I. M., and de Mello Roesler, C.R., Fretting corrosion tests on orthopedic plates and screws made of ASTM F138 stainless steel, Res. Biomed. Eng., 2015, vol. 31, pp. 169–175.

Sundararajan, T. and Praunseis, Z., The effect of nitrogen-ion implantation on the corrosion resistance of titanium in comparison with oxygen- and argon-ion implantations, Mater. Technol., 2004, vol. 38, pp. 19–24.

Rahman, M., Reid, I., Duggan, P., Dowling, D.P., Hughes, G., and Hashmi, M.S.J., Structural and tribological properties of the plasma nitrided Ti-alloy biomaterials: influence of the treatment temperature, Surf. Coat. Technol., 2007, vol. 201, pp. 4865–4872.

Pohrelyuk, I.M., Sheykin, S.E., Dub, S.M., Mamalis, A.G., Rostotskii, I.Yu., Tkachuk, O.V., and Lavrys, S.M., Increasing of functionality of c.p. titanium/UHMWPE tribo-pairs by thermodiffusion nitriding of titanium component, Biotribology, 2016, vol. 7, pp. 38–45.

Gotman, I. and Gutmanas, E.Y., Titanium nitride-based coatings on implantable medical devices, Adv. Biomater. Device Med., 2014, vol. 1, pp. 53–73.

Guillot, J., Chappé, J.-M., Heintz, O., Martin, N., Imhoff, L., and Takadoum, J., Phase mixture in MOCVD and reactive sputtering TiOxNy thin films revealed and quantified by XPS factorial analysis, Acta Mater., 2006, vol. 54, pp. 3067–7304.

Pohrelyuk, I.N., Skvortsova, S.V., Fedirko, V.N., Lukyanenko, A.G., Spektor, V.S., and Tkachuk, O.V., Effect of hydrogen heat treatment on antifriction properties of nitrided VT6 titanium-based alloy, J. Frict. Wear., 2016, vol. 37, no. 3, pp. 274–281.

Fedirko, V.M. and Pogrelyuk, I.M., Azotuvannya titanu ta iogo splaviv (Nitriding of Titanium and Its Alloys), Kyiv: Naukova Dumka, 1995.

Yaskiv, O.I., Pohrelyuk, I.M., Fedirko, V.M., Lee, D.B., and Tkachuk, O.V., Formation of oxynitrides on titanium alloys by gas diffusion treatment, Thin Solid Films, 2011, vol. 519, pp. 6508–6514.

Wilson, S. and Alpas, A.T., Tribo-layer formation during sliding wear of TiN coatings, Wear, 2000, vol. 245, pp. 223–229.

Zhang, Q.Y., Zhou, Y., Li, X.X., Wang, L., Cui, X.H., and Wang, S.Q., Accelerated formation of tribo-oxide layer and its effect on sliding wear of a titanium alloy, Tribol. Lett., 2016, vol. 63, pp. 1–13.