Soili Peltonen scite author profile

The aim of the study was to investigate particle and powder properties of various starch acetate powders, to study the effect of these properties on direct compression characteristics, and to evaluate the modification opportunity of physical properties for starch acetate powders by using various drying methods. At the end of the production phase of starch acetate, the slurry of starch acetate was dried using various techniques. Particle, powder, and tableting properties of end products were investigated. Particle size, circularity, surface texture, water content and specific surface area varied according to the particular drying method of choice. However, all powders were freely flowing. Bulk and tapped densities of powders varied in the range of 0.29 to 0.44 g/cm 3 and 0.39 to 0.56 g/cm 3 , respectively. Compaction characteristics revealed that all powders were easily deformed under compression, having yield pressure values of less than 66 MPa according to Heckel analysis. All powders possessed a significant interparticulate bond-forming capacity during compaction. The tensile strength values of tablets varied between 10 and 18 MPa. In conclusion, physical properties of starch acetate could be affected by various drying techniques. A large specific surface area and water content above 4% were favorable properties by direct compression, especially for small, irregular, and rough particles.

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Enhanced film-forming properties for ethyl cellulose and starch acetate using n-alkenyl succinic anhydrides as novel plasticizers

Tarvainen

Sutinen

Peltonen

et al. 2003

European Journal of Pharmaceutical Sciences

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Aqueous starch acetate dispersion as a novel coating material for controlled release products

Tarvainen

Peltonen

Mikkonen

et al. 2004

Journal of Controlled Release

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Soili Peltonen

Determination of the degree of substitution of acetylated starch by hydrolysis, 1H NMR and TGA/IR

Drug release from starch-acetate films

Effects of physical properties for starch acetate powders on tableting

Enhanced film-forming properties for ethyl cellulose and starch acetate using n-alkenyl succinic anhydrides as novel plasticizers

Aqueous starch acetate dispersion as a novel coating material for controlled release products

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