Engineering
Heat Generation
100%
Electromechanical Actuation
100%
Actuation System
100%
Finite Element Method
50%
Boundary Condition
50%
Analytical Approach
50%
Power Loss
50%
Mechanical Response
50%
Transients
50%
Actuation
50%
Mechanical Coupling
50%
Conductive
50%
Temperature Field
50%
Frictional Contact
50%
Temperature Distribution
50%
Thermal Behavior
50%
Thermal Characteristic
50%
External Load
50%
Temperature Rise
50%
Rotation Speed
50%
Thermal Load
50%
Error Compensation
50%
High Load Carrying Capacity
50%
Friction Torque
50%
Electrical Machine
50%
Thermal Error
50%
Contact Pair
50%
Keyphrases
Estimation Model
100%
Planetary Roller Screw Mechanism
100%
Thermal Estimation
100%
High Mass Loading
25%
Heat Generation
25%
Mechanism System
25%
Electromechanical Actuation System
25%
Finite Element Method
12%
Load Capacity
12%
Analytical Approach
12%
Power Loss
12%
Operating Conditions
12%
Mechanical Response
12%
Actuation
12%
Friction
12%
Thermal Characteristics
12%
Temperature Rise
12%
Temperature Field
12%
Temperature Distribution
12%
Rotational Speed
12%
Thermal Expansion
12%
Steady-state Thermal
12%
Computational Results
12%
External Load
12%
Contact Pair
12%
Amount of Heat
12%
Heat Conductivity
12%
Thermal Load
12%
Heat Convection
12%
Thermo-mechanical Analysis
12%
Accuracy Degradation
12%
Friction Torque
12%
Roller Screw
12%
Assembly Size
12%
Support Bearing
12%
Interface Loss
12%
Convective Boundary Condition
12%
Electrical Machines
12%
Distribution Expansion
12%
Thermal Behavior Analysis
12%
Coupled Thermo-mechanical
12%
Thermal Error
12%
Thermal Drift
12%
Frictional Contact Interface
12%
Transient Thermal
12%
Thermal Error Compensation
12%