This unique reference examines the modern pharmaceutical compacting techniques used to form tablets out of powders-describing the physical structure of pharmaceutical compacts, the bonding phenomena that occur during powder compaction, and the compression mechanisms of pharmaceutical particles.
This unique reference examines the modern pharmaceutical compacting techniques used to form tablets out of powders-describing the physical structure of pharmaceutical compacts, the bonding phenomena that occur during powder compaction, and the compression mechanisms of pharmaceutical particles.
Interparticulate Bonding Characteristics of Pharmaceutical Compacts Interparticulate Attraction Mechanisms, Claus Führer The Importance of Intermolecular Bonding Forces and the Concept of Bonding Surface Area, Christer Nyström and Per-Gunnar Karehill Characterization of the Compression Process Porosity-Pressure Functions, Petteri Paronen and Jukka Ilkka Force-Displacement and Network Measurements, Gert Ragnarsson Viscoelastic Models, Fritz Müller Application of Percolation Theory and Fractal Geometry to Tablet Compaction, Hans Leuenberger, Ruth Leu, and Jean-Daniel Bonny Characterization of Compact Properties Mechanical Strength, Peter N. Davies and J. Michael Newton Tablet Surface Area, N. Anthony Armstrong Rationale for and the Measurement of Tableting Indices, Everett N. Hiestand Material Properties of Importance for Powder Volume Reduction and Compact Strength Particle Dimensions, Göran Alderborn Mechanical Properties, Ray C. Rowe and Ron J. Roberts Granule Properties, Göran Alderborn and Martin Wikberg Modeling the Compression Behavior of Particle Assemblies from the Mechanical Properties of Individual Particles, Wendy C. Duncan-Hewitt Compaction Properties of Excipients and Powder Mixtures Materials for Direct Compaction, Gerald K. Bolhuis and Zak T. Chowhan Compaction Properties of Binary Mixtures, John T. Fell Lubricant Sensitivity, Gerad K. Bolhuis and Arne W. Hölzer The Development and Optimization of Tablet Formulations Using Mathematical Methods, Fridrun Podczeck
Interparticulate Bonding Characteristics of Pharmaceutical Compacts Interparticulate Attraction Mechanisms, Claus Führer The Importance of Intermolecular Bonding Forces and the Concept of Bonding Surface Area, Christer Nyström and Per-Gunnar Karehill Characterization of the Compression Process Porosity-Pressure Functions, Petteri Paronen and Jukka Ilkka Force-Displacement and Network Measurements, Gert Ragnarsson Viscoelastic Models, Fritz Müller Application of Percolation Theory and Fractal Geometry to Tablet Compaction, Hans Leuenberger, Ruth Leu, and Jean-Daniel Bonny Characterization of Compact Properties Mechanical Strength, Peter N. Davies and J. Michael Newton Tablet Surface Area, N. Anthony Armstrong Rationale for and the Measurement of Tableting Indices, Everett N. Hiestand Material Properties of Importance for Powder Volume Reduction and Compact Strength Particle Dimensions, Göran Alderborn Mechanical Properties, Ray C. Rowe and Ron J. Roberts Granule Properties, Göran Alderborn and Martin Wikberg Modeling the Compression Behavior of Particle Assemblies from the Mechanical Properties of Individual Particles, Wendy C. Duncan-Hewitt Compaction Properties of Excipients and Powder Mixtures Materials for Direct Compaction, Gerald K. Bolhuis and Zak T. Chowhan Compaction Properties of Binary Mixtures, John T. Fell Lubricant Sensitivity, Gerad K. Bolhuis and Arne W. Hölzer The Development and Optimization of Tablet Formulations Using Mathematical Methods, Fridrun Podczeck
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