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The effect of moisture on the mechanical and powder flow properties of microcrystalline cellulose.

作者信息

Amidon G E, Houghton M E

机构信息

Drug Delivery R&D, Upjohn Company, Kalamazoo, Michigan 49001, USA.

出版信息

Pharm Res. 1995 Jun;12(6):923-9. doi: 10.1023/a:1016233725612.

DOI:10.1023/a:1016233725612
PMID:7667202
Abstract

PURPOSE

This study determined the effects of moisture on the mechanical and powder flow properties of microcrystalline cellulose.

METHODS

A variety of mechanical properties were determined as a function of solid fraction at moisture levels ranging from 0 to 12.2% and included: compaction pressure required to form a compact, dynamic indentation hardness, quasi-static indentation hardness, tensile strength, best case and worst case Bonding Index, Brittle Fracture Index, Strain Index, Compressibility Index and shear cell index.

RESULTS

Significant changes were observed as the moisture level of microcrystalline cellulose increased. The compaction pressure required to produce a compact at a solid fraction of 0.6 decreased with increasing moisture content. The permanent deformation pressure and tensile strength of compacts were observed to be relatively independent of moisture content below about 5% moisture and then decrease as the moisture content increased further. The "best case" Bonding Index was also observed to be independent of moisture content below 5% and then increase with increasing moisture. The Brittle Fracture Index and "worst case" Bonding Index, however, did not appear to be affected by changes in moisture content. Powder flow was shown to decrease with increasing moisture content.

CONCLUSIONS

These mechanical property data are consistent with the hypothesis that water acts as a plasticizer and influences the mechanical properties of microcrystalline cellulose. At moisture levels above about 5%, the material exhibits significant changes consistent with a transition from the glassy state to the rubbery state.

摘要

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