| 89 - 101 |
Experimental studies on distributions of granule size, binder content and porosity in batch drum granulation: Inferences on process modelling requirements and process sensitivities
Ramachandran R, Poon JMH, Sanders CFW, Glaser T, Immanuel CD, Doyle FJ, Litster JD, Stepanek F, Wang FY, Cameron IT |
| 102 - 109 |
Effect of vibration condition and inter-particle frictions on the packing of uniform spheres
An XZ, Yang RY, Zou RP, Yu AB |
| 110 - 118 |
Behaviour of a curtain of particles falling through a horizontally-flowing gas stream
Wardjiman C, Lee A, Sheehan M, Rhodes M |
| 119 - 127 |
A small-angle X-ray scattering study of powder compaction
Laity PR, Cameron RE |
| 128 - 132 |
The use of CTAB to improve the crystallinity and dispersibility of ultrafine magnesium hydroxide by hydrothermal route
Yan H, Zhang XH, Wu JM, Wei LQ, Liu XG, Xu BS |
| 133 - 138 |
Application of ANOVA to image analysis results of talc particles produced by different milling
Ulusoy U |
| 139 - 146 |
Novel mechanistic description of the water granulation process for hydrophilic polymers
Larsson A, Vogt MH, Herder J, Luukkonen P |
| 147 - 152 |
Understanding powder caking: Predicting caking strength from individual particle contacts
Wahl M, Brocke U, Brendel L, Feise HJ, Weigl B, Rock M, Schwedes J |
| 153 - 165 |
A study on the validity of the multi-sphere Discrete Element Method
Kruggel-Emden H, Rickelt S, Wirtz S, Scherer V |
| 166 - 169 |
Powder-based nanoparticles fabrication technique in solution phase
Wu CW, Mosher BP, Zeng TF |
| 170 - 177 |
Numerical simulation of particle dynamics in different flow regimes in a rotating drum
Yang RY, Yu AB, McElroy L, Bao J |
