Engineering
Solid Bulk
100%
Iron
100%
Virtual Prototyping
100%
Discrete Element
54%
Element Method
54%
Product
45%
Design
36%
Efficiency
27%
Calibration Procedure
27%
Bulk Carrier
18%
Models
18%
Moisture Content
18%
Performance
18%
Full Scale
18%
Prototype
18%
Material Model
18%
Dependent Behavior
9%
Customers
9%
Stress History
9%
Shapes of Particle
9%
Computation Time
9%
Past Decade
9%
Input Parameter
9%
Coal
9%
Scaling
9%
Optimal Setting
9%
Computer Aided Design
9%
Multibody Dynamics
9%
Size of Particle
9%
Bulk Material
9%
Cycles
9%
Steel
9%
Ships
9%
Shear Strength
9%
Bulk Density
9%
INIS
simulation
100%
grabs
100%
solids
100%
iron ores
73%
design
26%
unloading
26%
efficiency
20%
calibration
20%
cargo
20%
moisture
20%
dynamics
13%
carriers
13%
demand
13%
cranes
13%
ports
13%
performance
13%
equipment
6%
capacity
6%
values
6%
sand
6%
coal
6%
coupling
6%
pellets
6%
variations
6%
calculation methods
6%
optimization
6%
scaling
6%
interactions
6%
particle size
6%
ships
6%
transport
6%
shape
6%
bulk density
6%
shear strength
6%
cost
6%
steel industry
6%
solutions
6%
size
6%
depth
6%
Chemical Engineering
Iron Ore
100%
Moisture
30%
Iron Ore Pellet
10%
Keyphrases
Bulk Cargo
6%
Varying Material Properties
6%
Crane Operator
6%
Destination Port
6%