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Mechanistic time scales in adhesive mixing investigated by dry particle sizing

Duy Nguyen (Institutionen för kemi och kemiteknik, Kemisk apparatteknik) ; Anders Rasmuson (Institutionen för kemi och kemiteknik, Kemisk apparatteknik) ; Ingela Niklasson Björn ; K. Thalberg
European Journal of Pharmaceutical Sciences (0928-0987). Vol. 69 (2015), p. 19-25.
[Artikel, refereegranskad vetenskaplig]

This study exploits the mechanisms governing blending of adhesive mixtures, i.e. random mixing, deagglomeration and adhesion, and their relative importance to achieve mixing homogeneity. To this end, blending of micronized particles (fines) with carrier particles was carried out using a high shear mixer. Dry particle sizing using laser diffraction coupled with a strong powder dispersion unit was employed to measure the fines content in samples collected during mixing, and hence to assess blend homogeneity. The method was also employed to evaluate the relative strength of the agglomerates present in the fines. Particle sizing using a non-destructive imaging technique was used to monitor changes in particle size during blending. It could be shown that the de-agglomeration of the fine-particle agglomerates is the slowest mechanism and hence the rate-limiting step as regards achieving a homogeneous adhesive mixture. Consequently, a longer mixing time is needed for blending of larger agglomerates. Being fast, simple and reproducible, the laser diffraction technique was shown to be an efficient method for measurement of fine particle content and homogeneity of a mixture, while the non-destructive image analysis was able to give relevant information on the rate of de-agglomeration of the fine-particle agglomerates as well as on the size of the resulting carrier-fine particle assemblies.

Nyckelord: Adhesive mixing, Mixing dynamics, Dry particle sizing, Dry powders for inhalation, Dry particle coating; Time scales

Denna post skapades 2015-06-30. Senast ändrad 2016-04-22.
CPL Pubid: 219112


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Institutioner (Chalmers)

Institutionen för kemi och kemiteknik, Kemisk apparatteknik


Farmaceutisk synteskemi

Chalmers infrastruktur

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A Multi-Scale Approach To Adhesive Mixing