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Microstructure and properties of flame sprayed tungsten carbide coatings
Authors:B. Vamsi Krishna   V. N. Misra   P. S. Mukherjee  Puneet Sharma
Affiliation:

a Materials Science and Technology Division, Thapar Centre for Industrial Research and Development, Post Box No. 68, Patiala 147 001, Punjab, India

b Regional Research Laboratory, Bhubaneswar 751 013, India

Abstract:This article reports on feasibility experiments carried out with oxy-acetylene spray system with various oxygen to fuel ratios using two different tungsten carbide powders and powder feeding methods, to evaluate the newly developed fused WC, synthesised by transferred arc thermal plasma method. Transferred arc thermal plasma method is more economical and less energy intensive than the conventional arc method and results in a fused carbide powder with higher hardness. The microstructure and phase composition of powders and coatings were analysed by optical and scanning electron microscopy, energy dispersive spectroscopy and X-ray diffraction. Carbon content of the powders and coatings were determined to study the decarburisation of the material during spraying process. Coatings were also characterised by their hardness and abrasive wear. The effects of metallurgical transformation and phase content are related to wear performance. The results demonstrate that the powders exhibit various degree of phase transformation during the spray process depending on the type of powder, powder feeding and spray parameters. The carbon loss during the spray process in excess of 45% resulted in reduced hardness and wear resistance of the coatings. Coatings with high amount of WC and W2C along with FeW3C showed higher wear resistance. Thus, coatings of high wear resistance can be produced using fused tungsten carbide powder with WC and W2C phases, which can be economically synthesised by thermal plasma transferred arc method.
Keywords:Hard-facing   Tungsten carbide coatings   Decarburisation   Thermal spraying   Flame spraying   Phase transformation   Microstructure
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