Keyphrases
Fretting
77%
High Stress
56%
Abrasive
56%
Friction
54%
Fretting Contact
45%
Martensitic Steel
45%
Wear Testing
36%
Quenched Steel
36%
Tempered Steel
36%
Wear Conditions
31%
Wear Test
30%
Flatons
30%
Wear Mechanism
30%
Application-oriented
29%
Medium Carbon
28%
Wear-resistant Steel
27%
Wear Performance
26%
Gross Sliding
25%
Slurry Erosion
25%
Abrasive Wear
25%
High Strength
24%
Friction Coefficient
24%
Failure Mode
23%
Abrasion
23%
Martensitic
22%
Wear Rate
21%
Residual Stress
21%
Friction Peak
20%
Abrasive Wear Resistance
20%
Tribofilm
19%
Impact Wear
18%
Wear Behavior
18%
Contact Condition
17%
Wear Resistance
17%
Rolling Element Bearing
17%
Cavitation Erosion Resistance
17%
Degradation Layer
17%
Gear Oil
17%
Environmentally Acceptable
17%
Prior Austenite Grain Size
17%
Fatigue Testing
17%
Environmentally Friendly Lubricant
17%
Bevel Gear
17%
Abrasion Wear
17%
Wear Surface
16%
Mass Loss
16%
Toughness Properties
16%
Fretting Wear
16%
Gear Contact
15%
Contact Surface
15%
Microstructure
15%
Fretting Test
15%
Testing Method
15%
Impact Abrasion
15%
Slurry Pot
15%
Tribology
14%
Adiabatic Shear Band
14%
Carbide-free Bainitic Steel
14%
Tampere
13%
Contact Pressure
13%
Bearing Damage
12%
Line of Action
12%
Sliding Velocity
12%
Impact Loading
12%
Mineral Oil
12%
Finite Element Method
12%
Ultra-high Strength Steel
12%
Material Selection
12%
Twin-disc Test
12%
Simulation Method
12%
Adhesive Wear
12%
Normal Contact
11%
Loading Cycles
11%
Adhesive Friction
11%
High Hardness
11%
Scanning Electron Microscopy
11%
Dry Contact
11%
Surface Damage
11%
Adhesion
11%
Sliding Condition
11%
Loading Conditions
11%
Pin-on-disc
11%
Fretting Fatigue
11%
Spacer Layer
10%
Residual Stress Distribution
10%
Press Hardening Steel
10%
Damage Detection
10%
Interferometric Techniques
10%
Rolling-sliding Contact
10%
Induction Hardening
10%
Mechanical Properties
10%
Journal Bearing
10%
Jaw Crusher
10%
Bainitic Steel
10%
Abrasive Wear Performance
10%
Rotating Beam
10%
Grain Size
10%
Martensitic Microstructure
10%
High Friction
10%
Coulomb Friction
10%
34CrNiMo6
10%
Third Body Layer
10%
Ultrasonic Nanocrystal Surface Modification
9%
Wear Characteristics
9%
Friction Wear
9%
Retained Austenite
9%
Tensile Strength
8%
Wear Area
8%
Friction Regimes
8%
Partial Slip
8%
Variable Friction Coefficient
8%
Direct Quench
8%
Rough Surface
8%
Subzero Temperature
8%
Scar
8%
Peak Temperature
8%
Heating Rate
8%
Lubricated Contact
8%
Mixed Lubrication Condition
8%
Crack Layer
8%
Rough Contact
8%
Fretting Characteristic
8%
Contact Orientation
8%
Wear Simulation
8%
Acoustic Emission
8%
Variable Normal Force
8%
Mineral Processing
8%
Solid Particle Erosion
8%
Stainless Steel
8%
AISI 420
8%
Subsurface Fatigue
8%
Displacement Amplitude
8%
Detection Parameters
8%
Fault Detection
8%
Finland
8%
Laser Shock Peening
8%
Tribofilm Formation
8%
Carbide-free
8%
Finnish Society
8%
Surface Orientation
8%
Supervisory Control
8%
Induced Degradation
8%
Tribofilm Growth
8%
Industrial Oil
8%
Friction Contact
8%
Ausforming
8%
Free Media
8%
Machine Learning
8%
Low Carbon Steel
8%
Feature Extraction
8%
Dry Particle
8%
Overload Cycle
8%
Cast Iron
8%
AISI 304
8%
Mechanical Behavior
8%
Cr3C2-NiCr
8%
High Velocity Oxygen Fuel
8%
Millimeter-scale
8%
Steel Wear
8%
Solid Particle Impingement
8%
White Layer
8%
Medium Carbon Steel
8%
Spray Coating
8%
Wind Turbine
8%
Deformed Microstructure
8%
Abrasive Wear Behavior
8%
Temperature Mapping
8%
Fracture Toughness
8%
Erosion Behavior
8%
Annotation Extraction
8%
Hydraulic pitch System
8%
Low-alloy pipe Steel
8%
Large-sized
8%
High-velocity Air Fuel
8%
Tribological Tests
8%
Oil-lubricated
8%
Emission Data
8%
Bearing Materials
8%
History of Tribology
8%
Data Annotation
8%
Full Film Lubrication
8%
Nanostructured Surface Layer
8%
304 Stainless Steel
8%
Beam Method
8%
Gear Fault
8%
Hopper
8%
Load Cycle
8%
Initial Hardness
8%
In-service Conditions
7%
Toughness
7%
Full Coupling
7%
Tangential Contact
7%
Pressure Calculation
7%
Mesh Modification
7%
Contact Formulation
7%
Frictional Behavior
7%
Normal Direction
7%
QT Steels
7%
Fretting Behavior
7%
Tangential Directions
7%
Engineering
Fretting
100%
Abrasive Wear
64%
Test Method
42%
Martensitic Stainless Steel
40%
Tempered Steel
33%
Wear Resistance
31%
Test Rig
23%
Mass Loss
22%
Surface Fatigue
21%
Resistant Steel
21%
Coefficient of Friction
21%
Friction Coefficient
21%
Pin-on-Disc
20%
Scuffing
20%
High Strength Steels
19%
Cavitation Corrosion
18%
Interferometry
18%
Residual Stress
17%
Prior Austenite Grain
17%
Impact Loads
17%
Nanocrystalline
17%
Erosion Resistance
17%
Fatigue Testing
17%
Sliding Contact
17%
Rolling Element
17%
Bevel Gears
17%
Subsurface
15%
Contact Condition
15%
Failure Mode
15%
Austenite Grain Size
14%
Fretting Wear
14%
Simulation Method
14%
Impact Wear
13%
Free Bainitic Steel
12%
Strain Hardening
12%
Abrasive
12%
Testing Method
12%
Ultrasonics
12%
Contacting Surface
11%
Damage Surface
11%
Tribology
11%
Surface Layers
11%
Hardened Steel
11%
Test Procedure
10%
Residual Stress Distribution
10%
Damage Detection
10%
Finite Element Analysis
10%
Metal Contact
10%
Journal Bearing
10%
Rotating Beam
10%
Jaw Crusher
10%
Low-Temperature
10%
Coulomb Friction
10%
Ultimate Tensile Strength
10%
Sliding Speed
9%
Martensite
9%
Plastic Deformation
8%
Similarities
8%
Erosion Process
8%
Adiabatic Shear Band
8%
Steel Grade
8%
Contact Time
8%
Normal Force
8%
Nanostructured Surface
8%
Feature Extraction
8%
Solid Particle
8%
Service Performance
8%
Laser Shock Peening
8%
Displacement Amplitude
8%
Electrical Contact
8%
Induced Degradation
8%
Hydraulics
8%
Pressure-Viscosity Coefficient
8%
Free Medium
8%
Acoustic Emission
8%
Subgrains
8%
Medium-Carbon Steels
8%
Temperature Mapping
8%
Mild Steel
8%
Steel Pipeline
8%
Test Machine
8%
Dry Abrasion
8%
Load Condition
8%
Stainless Steel
8%
Martensitic Microstructures
8%
Cast Iron
8%
Dump Cars
8%
Learning System
8%
Compressed Air Motors
8%
Mechanical Property
8%
Fretting Fatigue
8%
Contact Pressure
8%
Phase Composition
7%
Retained Austenite
7%
Loading Cycle
7%
Test Gear
7%
Service Condition
7%
Load Cycle
7%
Sliding Condition
7%
Test Sample
7%
Supervisory Control
6%
Data Collection
6%
Fatigue Performance
6%
Impeller
6%
Peak Temperature
5%
Mixed Lubrication
5%
Ore Treatment
5%
Spray Process
5%
Bearing Material
5%
Chromite Ore
5%
Grain Boundaries
5%
Fracture Strength
5%
Cross Section
5%
Wear Part
5%
Impact Toughness
5%
Load Level
5%
Energy Engineering
5%
Stress Abrasion
5%
Hardness Value
5%
Wear Property
5%
Bainitic Ferrite
5%
Materials Degradation
5%
Deformed Microstructure
5%
Frictional Behavior
5%
Big Difference
5%
Contact Stress
5%
Material Science
Abrasion
62%
Fretting
57%
Martensitic Steel
51%
Wear Testing
47%
Surface (Surface Science)
40%
Wear Resistance
38%
Austenite
30%
Carbide
25%
Fracture Toughness
22%
Surface Fatigue
19%
Impact Wear
18%
Contact Condition
18%
Phase Composition
17%
High Strength Steels
17%
Adiabatic Shear Band
17%
Residual Stress
17%
Grain Size
17%
Mineral Oil
17%
Tribology
17%
Film
16%
Work Hardening
16%
Material Selection
15%
Martensite
15%
Density
13%
Nanocrystalline
12%
Coefficient of Friction
12%
Fretting Wear
12%
Hardened Steel
11%
Ultimate Tensile Strength
11%
Strain Rate
10%
Bainite
10%
Surface Treatment
10%
Wear Part
9%
Rough Surface
8%
TRIP Steel
8%
Contact Resistance
8%
Journal Bearing
8%
Mechanical Property
8%
Pressure-Viscosity Coefficient
8%
Low Carbon Steel
8%
Stainless Steel
8%
Cast Iron
8%
Medium-Carbon Steels
8%
Elastohydrodynamic Lubrication
8%
Surface Damage
8%
Contact Area
8%
Chromite
8%
Lubricating Oil
8%
Plastic Deformation
7%
Abrasive
7%
Scanning Electron Microscopy
7%
Grain Refinement
6%
Surface Characterization
6%
Grain Boundaries
6%
Finite Element Method
6%
Mixed Lubrication
5%
Fretting Fatigue
5%
Finite Element Modeling
5%
Wear Property
5%