References
- ((2001)). Technical information no. 1237. In: AEROSIL® 200 Pharma: A Versatile Excipient for the Pharmaceutical Industry. Düsseldorf: Degussa, 3.
- ((2002)). Technical information no. 1247. In: AEROSIL® 200 VV Pharma: A New Excipient for the Pharmaceutical Industry. Düsseldorf: Degussa: 5.
- ((2003)). Technical bulletin fine particles no. 11. In: Basic Characteristic of AEROSIL. Düsseldorf: Degussa. , pp. 12, 17, 78–79.
- Bolhuis, G. K., & Chowhan, Z. T. ((1996)). Materials for direct compaction. In: G. Alderborn, & C. Nyström (Eds.)., New York: Marcel Dekker, 419–500.
- Bolhuis, G. K., & Hölzer, A. W. ((1996)). Lubricant sensitivity. In: G. Alderborn & C. Nyström (Eds.), Pharmaceutical Powder Compaction Technology (pp. 519–560). New York: Marcel Dekker.
- Dressler, J. A. ((2002)). Vergleichende Untersuchung pharmazeutischer Hilfsstoffe unter Einsatz eines inkrementalen Weggebers zur präzisen Wegmessung an einer Exzenter-Tablettenpresse. In: Ph.D. Thesis. , Tübingen, Germany.
- Dressler, J. A., Wagner, K. W., Wahl, M. A., & Schmidt, P. C. (2001). Comparison of incremental and inductive displacement transducers on an eccentric tablet press. Pharmazeutische Industrie, 63(8), 886–893., [CSA]
- Duckworth, W. H. (1953). Discussion of Ryskewitch paper by Winston Duckworth. Journal of the American Ceramic Society, 36, 68., [CSA]
- European Pharmacopoeia (2005a). 2.9.15. Apparent Volume (5th ed.). StrasbourgFrance: Council of Europe, 241–242.
- European Pharmacopoeia ((2005b)). 2.9.26. Specific Surface Area by Gas Adsorption (5th ed.). StrasbourgFrance: Council of Europe, 260–263.
- Frocht, M. M. (1945). Photoelasticity. New York: John Wiley & Sons, 116–157.
- Gustafsson, C., Lennholm, H., Iversen, T., & Nyström, C. (2003). Evaluation of surface and bulk characteristics of cellulose I powders in relation to compaction behaviour and tablet properties. Drug Development and Industrial Pharmacy, 29(10), 1095–1107., [PUBMED], [INFOTRIEVE], [CSA], [CROSSREF]
- Jonat, S., Hasenzahl, S., Drechsler, M., Albers, P., Wagner, K. W., & Schmidt, P. C. (2004a). Investigation of compacted hydrophilic and hydrophobic colloidal silicon dioxides as glidants for pharmaceutical excipients. Powder Technology, 141(1–2), 31–43., [CSA], [CROSSREF]
- Jonat, S., Hasenzahl, S., Gray, A., & Schmidt, P. C. (2004b). Mechanism of glidants: investigation of the effect of different colloidal silicon dioxide types on powder flow by atomic force and scanning electron microscopy. Journal of Pharmaceutical Sciences, 93(10), 2635–2644., [PUBMED], [INFOTRIEVE], [CSA], [CROSSREF]
- Lerk, C. F., Bolhuis, G. K., & Smedema, S. S. (1977). Interaction of lubricants and colloidal silica during mixing with excipients. I. Its effect on tabletting. Pharmaceutica Acta Helvetiae, 52(3), 33–39., [PUBMED], [INFOTRIEVE], [CSA]
- Mattsson, S., & Nyström, C. (2001). Evaluation of critical binder properties affecting the compactibility of binary mixtures. Drug Development and Industrial Pharmacy, 27(3), 181–194., [PUBMED], [INFOTRIEVE], [CSA], [CROSSREF]
- Meyer, K., & Zimmermann, I. (2004). Effect of glidants in binary powder mixtures. Powder Technology, 139(1), 40–54., [CSA], [CROSSREF]
- Nyström, C., Alderborn, G., Duberg, M., Karehill, P.-G. (1993). Bonding surface area and bonding mechanism—two important factors for the understanding of powder compactability. Drug Development and Industrial Pharmacy, 19(17&18), 2143–2196., [CSA]
- Rees, J. E., & Rue, P. J. (1978). Time-dependant deformation of some direct compression excipients. Journal of Pharmacy and Pharmacology, 30(10), 601–607., [PUBMED], [INFOTRIEVE], [CSA]
- Ritschel, W. A., & Bauer-Brandl, A. (2002). Einleitung und Allgemeines. In: Die Tablette (2nd ed.). Aulendorf: Edito-Canto-Verlag, 144–146.
- Rowe, R. C. (1988). Interactions in the ternary powder system microcrystalline cellulose, magnesium stearate and colloidal silica—a solubility parameter approach. International Journal of Pharmaceutics, 45(3), 259–261., [CSA], [CROSSREF]
- Staniforth, J. N., & Ahmed, H. A. (1987). Influence of ternary components on compressibility of microcrystalline cellulose following blending with magnesium stearate. Journal of Pharmacy and Pharmacology, 39, 68P., [CSA]
- van der Voort Maarschalk, K., Zuurman, K., Vromans, H., Bolhuis, G. K., & Lerk, C. F. (1996). Porosity expansion of tablets as a result of bonding and deformation of particulate solids. International Journal of Pharmaceutics, 140(2), 183–193., [CSA]
- van Veen, B., van der Voort Maarschalk, K., Bolhuis, G. K., Zuurman, K., & Frijlink, H. W. (2000). Tensile strength of tablets containing two materials with different compaction behaviour. International Journal of Pharmaceutics, 203(1–3), 71–79., [PUBMED], [INFOTRIEVE], [CSA], [CROSSREF]
- Vromans, H., & Lerk, C. F. (1988). Densification properties and compactibility of mixtures of pharmaceutical excipients with and without magnesium stearate. International Journal of Pharmaceutics, 46(3), 183–192., [CSA], [CROSSREF]
- Zuurman, K., van der Voort Maarschalk, K., & Bolhuis, G. K. (1999). Effect of magnesium stearate on bonding and porosity expansion of tablets produced from materials with different consolidation properties. International Journal of Pharmaceutics, 179(1), 107–115., [PUBMED], [INFOTRIEVE], [CSA], [CROSSREF]