Keyphrases
Angle Error
25%
Blade Angle
25%
Blade Wear
25%
Concentration Phenomena
12%
Contact Pattern
29%
Contact Performance
50%
Contact Transmission
8%
Correction Effect
12%
Curved Blade
12%
Cutter
25%
Cutting Force
8%
Cutting Process
8%
Damping Film
8%
Deviation Distribution
20%
Different Dynamics
8%
Dynamic Calculation
8%
Dynamic Model
8%
Dynamic Response
58%
Dynamic Transmission Error
8%
Edge Contact
37%
Elastohydrodynamic Lubrication
25%
Error Angle
8%
Face-hobbed Hypoid Gear
100%
Feasible Solution Space
12%
Film Thickness
8%
Film Thickness Distribution
8%
Finite Element Contact Analysis
12%
Force Variability
8%
Form Error
50%
Friction Coefficient
8%
Friction Film
8%
Frictional Damping
8%
Gaussian Distribution Model
12%
Gear Dynamics
58%
Gear Mesh
50%
Gear Meshing
12%
Gear Tooth Surface
8%
Heavy Load
25%
Heavy-duty Truck
8%
High Torque
8%
Hypoid Gear
50%
Integrated Dynamic Model
8%
Kinematic Parameters
8%
Kinematic Quantities
8%
Line of Action
8%
Linear Dynamic Model
8%
Loaded Tooth Contact Analysis
8%
Lubricating Film
8%
Lubrication
8%
Lubrication Approximation
8%
Lubrication Parameter
8%
Lubrication Pressure
8%
Machine Tool Error
8%
Mathematical Model
12%
Mesh Force
16%
Mesh Parameter
8%
Mesh Point
8%
Mesh Stiffness
8%
Meshing Performance
25%
Mixed Elastohydrodynamic Lubrication
50%
Modification Parameters
25%
Most Common Form
8%
Oil Film
8%
Optimal Modification
12%
Pareto Design
12%
Pressure Film
8%
Profile Modification
50%
Radius Curvature
12%
Radius Error
16%
Semi-finite
12%
Shear Distribution
8%
Shock
12%
Spiral Bevel Gear
50%
Static Transmission Error
8%
Stiffness
8%
Stress Concentration
12%
Surface Dynamics
8%
Surface Mesh
8%
Surface Roughness Profile
8%
Time-varying Mesh
8%
Tool Errors
50%
Tool Profile
50%
Tooth Depth
12%
Tooth Height
12%
Tooth Surface
25%
Tooth Surface Deviation
20%
Tooth Surface Error
16%
Transmission Error
41%
Tribo-dynamics
50%
Tribological Parameters
8%
Vibratory Response
8%
Engineering
Blade Angle
18%
Coefficient of Friction
8%
Cutter Radius
18%
Cutting Force
6%
Dynamic Models
22%
Dynamic Response
58%
Elastohydrodynamic Lubrication
50%
Finite Element Method
16%
Force Variation
8%
Form Error
50%
Gear Mesh
50%
Gear-Teeth Surface
6%
Harmonics
6%
Heavy Load
33%
Hypoid Gear
100%
Lubrication Parameter
8%
Machine Tool
6%
Mathematical Model
16%
Mesh Parameter
6%
Shear Distribution
8%
Simulation Result
6%
Spiral Bevel Gears
50%
Stress Concentration
16%
Surface Mesh
6%
Thickness Distribution
8%
Transmission Error
58%