• Montagne, Alex
• Aissani, Linda
• Samad, Mohammed Abdul
• Iost, Alain
• Zine, Touhami Mohamed
• Fellah, Mamoun
• Nouveau, Corinne

Abstract

This study aims to examine the effect of replacing vanadium by niobium and iron on the tribological behavior of hot-isostatic-pressed titanium alloy (Ti–6Al–4V) biomaterial, using a ball-on-disk-type oscillating tribometer, under wet conditions using physiological solution in accordance with the ISO7148 standards. The tests were carried out under a normal load of 6 N, with an AISI 52100 grade steel ball as a counter face. The morphological changes and structural evolution of the nanoparticle powders using different milling times (2, 6, 12 and 18 h) were studied. The morphological characterization indicated that the particle and crystallite size continuously decrease with increasing milling time to reach the lowest value of 4 nm at 18-h milling. The friction coefficient and wear rate were lower in the samples milled at 18 h (0.226, 0.297 and 0.423; and 0.66 × 10−2, 0.87 × 10−2 and 1.51 × 10−2 µm3 N−1 µm−1) for Ti–6Al–4Fe, Ti–6Al–7Nb and Ti–6Al–4V, respectively. This improvement in friction and wear resistance is attributed to the grain refinement at 18-h milling. The Ti–6Al–4Fe samples showed good tribological performance for all milling times.

Topics

• nanoparticle
• impedance spectroscopy
• grain
• grinding
• milling
• wear resistance
• steel
• titanium
• titanium alloy
• iron
• vanadium
• niobium