INIS
prediction
100%
sensitivity analysis
100%
particles
100%
wear
100%
iron ores
100%
volume
29%
simulation
22%
geometry
18%
equipment
11%
surfaces
11%
accuracy
11%
industry
11%
solids
11%
increasing
7%
levels
7%
values
7%
losses
7%
stability
7%
steady-state conditions
7%
size
7%
shear
7%
design
3%
sensitivity
3%
poisson ratio
3%
calibration
3%
interactions
3%
slip
3%
speed
3%
comparative evaluations
3%
shape
3%
computer codes
3%
density
3%
equations
3%
errors
3%
maintenance
3%
Engineering
Ore Particle
100%
Discrete Element
100%
Element Method
100%
Solid Bulk
25%
Pin-on-Disk Wear Test
16%
Reference Case
16%
Simulation Time
16%
Joints (Structural Components)
8%
Models
8%
Error
8%
Demonstrates
8%
Limitations
8%
Characteristics
8%
Rotating Speed
8%
Maximum Time Step
8%
High Amount
8%
Design
8%
Contact Model
8%
Efficient Maintenance
8%
Surface Equipment
8%
Material Science
Sliding Wear
100%
Iron Ore
100%
Discrete Element Method
100%
Particle
100%
Surface
25%
Elastic Moduli
16%
Indentation
8%
Density
8%
Theoretical Calculation
8%