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137. Mischler S., Rosset E.A., Landolt D. Effect of corrosion on the wear
behaviour of passivating metals in aqueous solutions. Tribology Series. 1993. №
25, P. 245–253.
138. Influence of passivity on the tribocorrosion of carbon steel in aqueous
solutions. / S. Mischler, et al. Wear. 2001. Vol. 251. P. 1295–1307.
139. Monticelli C., Zucchi F., Tampieri A. Triboelectrochemical behaviour of a
Si3N4–TiN ceramic composite and a titanium alloy commonly used in
biomedical applications. Wear. 2009. Vol. 266. P. 327–336.
140. Influence of microstructure and texture on the corrosion and tribocorrosion
behavior of Ti–6Al–4V. / E. Martin, et al. Tribology International. 2010. Vol.
43. P. 918–924.
141. Third body effects and material fluxes in tribocorrosion systems involving a
sliding contact. / Landolt, D., et al. Wear. 2004. Vol. 256, P. 517–524.
142. Wear processes in sliding systems. / D.A. Rigney, et al. Wear. 1984. Vol.
100. P. 195–219.
143. Effect of surface chemistry on the mechanical response of metals in sliding
tribocorrosion systems. / A. Bidiville, et al. Wear. 2007. Vol. 263. P. 207–217.
144. Wear mechanisms in metal-on-metal bearings: the importance of
tribochemical reactions layers. / M.A. Wimmer, et al. Journal of Orthopaedic
Research. 2009. Vol. 28. P. 1–8.
145. Fischer, A. Subsurface microstructural alterations during sliding wear of
biomedical metals. Modelling and experimental results. Computational
Materials Science. 2009. Vol. 46. P. 586–590.
146. EBSD, SEM and FIB characterisation of subsurface deformation during
tribocorrosion of stainless steel in sulphuric acid. / J. Perret, et al. Wear. 2010.
Vol. 269. P. 383–393.
147. Espallargas N., Mischler S. Dry wear and tribocorrosion mechanisms of
pulsed plasma nitrided Ni–Cr alloys. Wear. 2010. Vol. 270. P. 464–471.
