School of Chemical and Metallurgical Engineering, DST/NRF Centre of Excellence in Strong Materials, University of the Witwatersrand, P/Bag 3, Wits, South Africa; Pilot Tools (Pty) (Ltd), P.O. Box 27559, Benrose, South Africa
Freemantle, C.S., School of Chemical and Metallurgical Engineering, DST/NRF Centre of Excellence in Strong Materials, University of the Witwatersrand, P/Bag 3, Wits, South Africa, Pilot Tools (Pty) (Ltd), P.O. Box 27559, Benrose, South Africa; Sacks, N., School of Chemical and Metallurgical Engineering, DST/NRF Centre of Excellence in Strong Materials, University of the Witwatersrand, P/Bag 3, Wits, South Africa
The slurry rheology of zinc recycled and newWC-6 wt.% Co materials has been studied. The impact of polymer molecular weight, particle size distribution, zeta potential and solids loading on slurry rheology has been investigated and correlated with spray dried powder properties. Powders were characterized in terms of granule size distribution, apparent density, flow rate and granule microstructure. Zinc recycled and new powders, produced in both laboratory and production sized mills, were rheologically tested at various particle sizes ranging from 1.3 μm to 4.1 μm and at 3 different alcohol fractions. Polymer breakdown did not occur during milling, and did not influence slurry rheology. Recycled powders exhibited more consistent zeta potentials compared to new powders however all of the slurries, recycled and new alike, displayed agglomerating tendencies. Grain size distribution was shown to be the dominant factor in the shear response and development of a slurry yield stress, which resulted in solid spray dried granules from slurries possessing finer grain size and a higher yield stress, compared to hollow granules resulting from slurries possessing a coarser grain size and a low yield stress. Finer slurries, regardless of recycling or not, displayed higher settling rates. Zinc recycled slurries settled less quickly than newslurries of similar particle size; however they required longermilling times to achieve the target grain size distribution. Both zinc recycled and new powder slurries can be tailored to produce ideal, solid granules. © 2014 Elsevier Ltd.
Carbide tools; Carbides; Copolymers; Elasticity; Granulation; Particle size; Particle size analysis; Powders; Recycling; Size distribution; Slurries; Spray drying; Tungsten carbide; Yield stress; Zeta potential; Zinc; Milling (machining); Cemented carbides; Grain size distribution; Granule microstructure; Granule size distribution; Polymer molecular weight; Slurry rheology; Spray-dried granules; Spray-dried powders; Grain size and shape