Abstract

In the present study, the effects of current density and agitation on the behaviour of co-deposition of TiO2 particles in an electrodeposited nickel were investigated. The electrodeposited Ni–TiO2 composite was manufactured from a nickel sulfamate bath containing TiO2 particles. The volume fraction of the incorporated TiO2 particles, the current efficiency (C.E.) and the hardness were measured in different current densities, magnetic bar speed and flow rate of the air bubble. The results indicate that the volume fraction of TiO2 particles in the nickel matrix increased with a decrease of the C.E. at the mass transfer region, but the opposite tendency was observed under the charge transfer region. The hardness of the Ni–TiO2 composite increased normally with an increase in the volume fraction of the TiO2 particles. However, the hardness increased with a decrease in the volume fraction at a lower current density region owing to the hardening of the nickel matrix.

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