Please use this identifier to cite or link to this item: http://hdl.handle.net/2381/43046
Title: Microstructural and Mechanical Assessment of Pulse-Reverse Plated Cobalt Matrix Nanocomposite Coatings
Authors: Albusalih, Dhuha F.
Supervisors: Gill, Simon
Weston, David
Award date: 31-Oct-2018
Presented at: University of Leicester
Abstract: Electrodeposited metal matrix nanocomposites (MMNCs) offer improved mechanical properties for tribological coatings. The development of nanotechnology in the last 25 years means there are now a multitude of nanoparticles, nanowires and nano-tubes available in an ever- increasing range of materials and hence the scope for new nanocopmosites coatings by electrodeposition is greater than ever, with the potential to develop a coating with functional performance equivalent to hard chrome. Recent work on pulse reverse deposition of MMNCs by Weston, et al has suggested the capability to control the co-deposition of metals and particulates. The technique includes the use of a surfactant and pulse reverse plating (PRP). In the present work, the suggested mechanism investigated on cobalt matrix nanocomposites with a number of particles including SiC, Al2O3, and PTFE with different particles loading and size. The produced nanocomposites assessed microstructurally and mechanically by different analysis: Field emission gun scanning electron microscopy FEGSEM cross section and surface topography, Energy Disperse X-ray EDX, image analysis, X-ray diffraction XRD, and transmission electron microscopy TEM. The microstructural results indicated the applicability of PRP for Co-SiC with different particle loadings, and for Co-SiC with 5 g l-1 Al2O3. The mechanical properties of the produced coatings suggests an increase in microhardness with increasing the particles volume fraction with 8.7 vol. % of SiC increasing the hardness by up to 25 % and 9.1 vol% of Al2O3 raising it by up to 31 % beyond the hardness of the pure Co coatings. No significant effect attributed to the reduction of the grain size was observed. A predictive model for the main controlling strengthening (dispersion strengthening) of the nanocomposites with low surfactant content 0.2 g l-1 of SDS was found. The model is applicable on both nanocomposites electroplated cobalt coatings Co-Al2O3 and Co-SiC.
Links: http://hdl.handle.net/2381/43046
Type: Thesis
Level: Doctoral
Qualification: PhD
Rights: Copyright © the author. All rights reserved.
Appears in Collections:Leicester Theses
Theses, Dept. of Engineering

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