Keyphrases
Roller-compacted
100%
Density Distribution
100%
Ribbon
100%
Die Filling
100%
Mass Flow Rate
67%
Discrete Element Method
62%
Lubrication
58%
Powder Flow
58%
Critical Filling Speed
50%
Roller Press
50%
Tabletting
50%
Discrete Element Simulation
50%
X-ray Micro-computed Tomography
50%
Microindentation
50%
Computational Fluid Dynamics Analysis
50%
Granules
41%
Ribbon Density
41%
Roller Compaction
41%
Flow Behavior
35%
Cheek
33%
Shoes
32%
Particle Density
28%
Polydisperse Systems
26%
Monodisperse System
26%
Rolling Speed
25%
Roll Gap
25%
Friction
25%
Particle Size
21%
Filling Process
19%
Dry Granulation
16%
Granulation Process
16%
Drag Angle
16%
Densification Behavior
16%
Nip Angle
16%
Peak Pressure
16%
Ribbon Properties
16%
Pressure Angle
16%
Monodisperse
14%
Moving Die
12%
Filling Speed
12%
Rotary Tablet Press
12%
Maximum Flow Rate
12%
Low Filling
12%
Initial Height
12%
Powder Bed
12%
Average Mass
12%
Particle Shape
12%
Particle number
12%
Chinese Academy of Sciences
12%
Filling Ratio
12%
Chinese Society
12%
Process Engineering
12%
Irregular Particles
12%
Bulk Density
8%
Distribution Flow
8%
Distribution Density
8%
Avicel PH102
8%
Density Behavior
8%
Milling Conditions
8%
Die Compaction
8%
Powder Processing
8%
Distribution Behavior
8%
Feeding Mechanism
8%
Feed Speed
8%
Powder Properties
8%
Powder Feeding
8%
Manufacturing Efficiency
8%
Hopper
8%
Powder Mixture
8%
Compaction
8%
Size-density
8%
Pharmaceutical Formulations
8%
Granule Size
8%
University of Birmingham
8%
Compaction Method
8%
Number of Factors
8%
Lubricant
8%
Product Quality
8%
Processing Parameters
8%
Microcrystalline Cellulose
8%
Flow Pattern
8%
Process Conditions
8%
Polydisperse Powders
7%
Eulerian-Lagrangian Model
7%
Particle Interactions
7%
Cohesive Powder
7%
Powder Flow Behavior
7%
Particle-fluid
7%
Powder Systems
7%
Interaction Coupling
7%
Air-sensitive
7%
Air Effect
7%
Rate of Increase
7%
Particle Size Distribution
7%
Small Particle Size
7%
Density Increase
7%
Flow Characteristics
7%
Coupling Terms
7%
Energy Increase
7%
Numerical Simulation
7%
Airflow
7%
Surface Energy
7%
Computational Fluid Dynamics
7%
Airborne Particles
7%
Adhesion
7%
Particle Size Effect
7%
Engineering
Density Distribution
100%
Die Filling
100%
Element Method
100%
Discrete Element
100%
Mass Flowrate
92%
Flow Behavior
71%
Indentation
50%
Powder Flow
50%
Computational Fluid Dynamics
50%
Peak Pressure
50%
Densification
50%
Roll Speed
45%
Dimensionless
42%
Filling Process
32%
Particle Density
28%
Maximum Flow Rate
25%
Powder Bed
25%
Distribution Behavior
25%
Bulk Density
25%
Distribution Density
25%
Feeding Speed
25%
Process Engineering
25%
Flow Pattern
25%
Processing Parameter
25%
Product Quality
10%
Microcrystalline
10%
Process Condition
10%
Compaction Process
10%
Flow Characteristics
7%
Interfacial Energy
7%
Rate Increase
7%
Particle Size Analysis
7%
Air Flow
7%