Modelling effects of processing parameters on granule porosity in high-shear granulation

The objective is to provide mechanistic understanding of a preferred wet granulation process that a binder is added in a dry state. Blends of CaCO(3) and binders were prepared and used as model systems, and they were exposed to either 96% RH (rubbery/solution state) or 60% RH (glassy state) at room

In this study, the objective is to investigate the effect of the physical state of a binder on wet granulation and granule properties using a binary model system (CaCO(3)-binder), which is essential for understanding the mechanism of wet granulation when binder is added in a dry state. Part I focus

Co-melt granulation of lactose and PEG was investigated in a fluidised bed granulator. The effect of process parameters such as binder content and binder viscosity were correlated to granulation time and particle size distribution. The experimental data indicated that after initial nucleation the gr

A method for real-time assessment of granule and tablet properties was investigated. A mixture of microcrystalline cellulose:mannitol:povidone (78.5:18.5:3) was used in the study and granulated with five different water amounts and two impeller speeds. This represents a full-factorial design with tw

mined from results with ejected tablets indicate that higher pressures are needed to fill the interparticulate void space than are in fact necessary. The effect of particle size is less clearly defined in the values of kl and kz but, again, there is the indication that the 75-104-pm. size fraction i

Melt granulation of a formulation of theophylline, containing lactose, microcrystalline cellulose and hydroxypropylmethylcellulose as excipients, was investigated in a 10 l high shear mixer as an alternative method to the wet granulation process, using polyethylene glycol 6000 as melting binder. The