Selection of Silica Type and Amount for Flowability Enhancements via Dry Coating: Contact Mechanics Based Predictive Approach
Document Type
Article
Publication Date
12-1-2023
Abstract
Purpose: To investigate the effect of dry coating the amount and type of silica on powder flowability enhancement using a comprehensive set of 19 pharmaceutical powders having different sizes, surface roughness, morphology, and aspect ratios, as well as assess flow predictability via Bond number estimated using a mechanistic multi-asperity particle contact model. Method: Particle size, shape, density, surface energy and area, SEM-based morphology, and FFC were assessed for all powders. Hydrophobic (R972P) or hydrophilic (A200) nano-silica were dry coated for each powder at 25%, 50%, and 100% surface area coverage (SAC). Flow predictability was assessed via particle size and Bond number. Results: Nearly maximal flow enhancement, one or more flow category, was observed for all powders at 50% SAC of either type of silica, equivalent to 1 wt% or less for both the hydrophobic R972P or hydrophilic A200, while R972P generally performed slightly better. Silica amount as SAC better helped understand the relative performance. The power-law relation between FFC and Bond number was observed. Conclusion: Significant flow enhancements were achieved at 50% SAC, validating previous models. Most uncoated very cohesive powders improved by two flow categories, attaining easy flow. Flowability could not be predicted for both the uncoated and dry coated powders via particle size alone. Prediction was significantly better using Bond number computed via the mechanistic multi-asperity particle contact model accounting for the particle size, surface energy, roughness, and the amount and type of silica. The widely accepted 200 nm surface roughness was not valid for most pharmaceutical powders.
Identifier
85165182762 (Scopus)
Publication Title
Pharmaceutical Research
External Full Text Location
https://doi.org/10.1007/s11095-023-03561-6
e-ISSN
1573904X
ISSN
07248741
PubMed ID
37468827
First Page
2917
Last Page
2933
Issue
12
Volume
40
Grant
2137209
Fund Ref
International Fine Particle Research Institute
Recommended Citation
Kunnath, Kuriakose T.; Tripathi, Siddharth; Kim, Sangah S.; Chen, Liang; Zheng, Kai; and Davé, Rajesh N., "Selection of Silica Type and Amount for Flowability Enhancements via Dry Coating: Contact Mechanics Based Predictive Approach" (2023). Faculty Publications. 1231.
https://digitalcommons.njit.edu/fac_pubs/1231
