Keyphrases
Surface Roughness
100%
Friction
100%
Finite Element Model
100%
Cast Iron
100%
Steel Wire
100%
Lubricant
75%
Friction Coefficient
50%
Solid Particles
50%
Lubrication
25%
Particle Size Distribution
25%
Numerical Simulation
25%
Further Development
25%
Sliding Surface
25%
Wear Protection
25%
Numerical Experiments
25%
Oxide Particles
25%
Stress Distribution
25%
Particle Size Effect
25%
Surface Wear
25%
Computational Simulation
25%
Grease Lubrication
25%
Optimal Surfaces
25%
Manganese Oxide
25%
Twin-disc
25%
Iron Surface
25%
Oil Binder
25%
Shear Resistant
25%
Manganese Tetroxide
25%
Protection Characteristic
25%
Lubricant Compositions
25%
Transmission Oil
25%
Higher Coefficients
25%
INIS
surfaces
100%
wires
100%
finite element method
100%
steels
100%
cast iron
100%
friction
60%
roughness
40%
lubricants
40%
particles
30%
solids
30%
levels
20%
lubrication
20%
wear
20%
distribution
20%
increasing
20%
values
10%
simulation
10%
layers
10%
engineering
10%
morphology
10%
particle size
10%
transmission
10%
greases
10%
oils
10%
shear
10%
protection
10%
computerized simulation
10%
binders
10%
topography
10%
manganese
10%
manganese oxides
10%
Engineering
Steel Wire
100%
Finite Element Modeling
100%
Cast Iron
100%
Solid Particle
66%
Phase Composition
66%
Friction Coefficient
66%
Coefficient of Friction
66%
Sliding Surface
33%
Numerical Experiment
33%
Friction Value
33%
Grease
33%
Engineering
33%
Surface Fatigue
33%
Computer Simulation
33%
Particle Size Analysis
33%
Material Science
Cast Iron
100%
Surface (Surface Science)
100%
Finite Element Modeling
100%
Surface Roughness
80%
Lubrication
40%
Coefficient of Friction
40%
Phase Composition
40%
Manganese
20%
Oxide Particle
20%
Surface Fatigue
20%
Particle Size Analysis
20%
Manganese Oxide
20%