The effect of powder size on induction behaviour and binder distribution during high shear melt agglomeration of calcium carbonate

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Abstract

Growth mechanisms in high shear mixer granulation were observed overa wide range of particle size and liquid-to-solid (LIS) ratio. The materials used were calcium carbonate, (CaCO3; size fractions in the range 1.5 to 85 mu m) with a binder of polyethylene glycol 6000 (PEG 6k). The binder, solid at room temperature, was added by the "melt-in" method. A 10 L vertical-axis granulator was used, with a chopper and a four-bladed impeller. The mean granule size and granule size distribution were measured at regular intervals during the agglomeration process by careful sampling and sieving. The uniformity of binder distribution among the granules was also measured. The growth behaviours of each grade of primary particles were classified and compared. An induction type mechanism was observed with an initial period of slow growth in mean particle size that lasted 2 to 3 min (the induction period). This was followed by a short rapid growth phase lasting 1 to 2 min. The final stage was a plateau of more or less zero growth. Interestingly, the end of the induction period and the onset of rapid growth corresponded to a change in the granule size distribution from bimodal to monomodal and a similar change in the distribution of binder. Induction period growth rate tended to be lower for granules of fin er particles, but these grew more rapidly during the rapid growth stage and produced larger granules than the coarser primary particles. The liquid-to-solid (L/S) ratio had a significant effect on the growth rate during the rapid growth stage but a minor effect on the granule size distribution and binder distribution. Primary particle size had a significant. effect on the final average size of granules, the growth rate during the rapid growth stage and the distribution of granule size and, binder. (c) 2007 Elsevier B.V. All rights reserved.
Original languageEnglish
Pages (from-to)298-312
Number of pages15
JournalPowder Technology
Volume184
Issue number3
DOIs
Publication statusPublished - 1 Jun 2008

Keywords

  • high shear melt agglomeration
  • binder distribution
  • induction behaviour

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