Keyphrases
Elastohydrodynamic Lubrication
100%
Gear Pair
100%
Face Gear
100%
Pericyclic
100%
Lubrication Analysis
100%
Friction Coefficient
42%
Hertzian Contact
42%
Kinematics
28%
Contact Stress
28%
Contact Behavior
28%
Contact Characteristics
28%
Lubricant Film Thickness
28%
Shear Stress
14%
Shear Strain
14%
Coefficient Value
14%
Stress Range
14%
Reduction Rate
14%
Lubricant
14%
Non-Newtonian
14%
Design Space
14%
Geometric Model
14%
Film Thickness
14%
Pressure-viscosity Coefficient
14%
Maximum Efficiency
14%
Contact Zone
14%
Rolling Velocity
14%
Fixed Axis
14%
Minimum Efficiency
14%
Gear Tooth
14%
Mesh Efficiency
14%
Number of Teeth
14%
Deformation Area
14%
Shear under Pressure
14%
PVT Efficiency
14%
Contact Deflection
14%
Average Friction Coefficient
14%
Helicopter Transmission System
14%
Viscosity Correlation
14%
Lubrication Characteristics
14%
Contact Deformation
14%
Engineering
Transmissions
100%
Elastohydrodynamic Lubrication
100%
Friction Coefficient
75%
Contact Stress
50%
Fluid Viscosity
25%
Shear Strain
25%
Stress Range
25%
Reduction Ratio
25%
Design Space
25%
Geometric Model
25%
Coefficient of Friction
25%
Contact Area
25%
Rolling Velocity
25%
Iso
25%
Gear Teeth
25%
Vehicle Transmissions
25%
Contact Zone
25%
Fixed Axis
25%