Effect of multi-walled carbon nanotubes as reinforced fibres on tribological behaviour of Ni-P electroless coatings

After multi-walled carbon nanotubes (MWNTs) were modified and dispersed uniformly in electrolyte, the MWNTs composite coatings were prepared by electroless deposition. Hardness tests were carried out using a Vickers Hardness indenter. The friction and wear behavior of the Ni-P-MWNTs composite coatings in carbon-steel rings were investigated by using a ring-on-plate wear tester at pure liquid paraffin. Moreover, the friction and wear behavior of nine kinds of wear combinations, which were composed of plates and rings of different composite coatings, were studied. The experimental results indicated that addition of MWNTs would result in an increase in microhardness and an improvement of tribological properties of the Ni-P composite coating significantly. The Ni-P-MWNTs composite coatings revealed lower wear rate and friction coefficient compared with Si-C composite coatings. Moreover, the wear combination, which composed of the Ni-P-MWNTs composite coatings, showed a more excellent ability of friction-reduction and wear resistance than other combinations, and their friction coefficient and wear rate were 0.1087 and 1.49 x 10(-6) kg/m, respectively. (c) 2005 Elsevier B.V. All rights reserved.