Keyphrases
Low Alloy Steel
100%
High Strength
100%
High Cycle Fatigue
100%
Fatigue Resistance
100%
Failure Mechanism
100%
Fatigue Mechanism
100%
Crack Initiation
66%
Martensitic Steel
66%
Cyclic Softening
66%
Non-metallic Inclusions
66%
Fatigue Behavior
66%
Cyclic Hardening
66%
Microstructure
33%
Scanning Electron Microscopy
33%
Tensile Strength
33%
Yield Strength
33%
Characterization Techniques
33%
Failure Mode
33%
Surface Crack
33%
Silica
33%
Cyclic Loading
33%
Damage Mechanism
33%
Fracture Surface
33%
Martensitic
33%
Surface Characteristics
33%
Complex Shape
33%
Fatigue Test
33%
Ultra-high Strength Steel
33%
Low Alloy
33%
Fracture Surface Analysis
33%
Stress Control
33%
Complex Morphology
33%
Microstructural Evolution
33%
Fatigue Limit
33%
Plastic Cracking
33%
Fatigue Strength
33%
Damage Failure
33%
Localized Plastic Deformation
33%
Stress Concentrator
33%
Crack Initiation Mechanism
33%
Laser Scanning Confocal Microscopy
33%
Micro-indentation Hardness
33%
Confocal Scanning
33%
3D Microstructure Characterization
33%
Mechanism Mode
33%
Engineering
High Cycle Fatigue
100%
Fatigue Resistance
100%
Crack Initiation
100%
Failure Mechanism
100%
High Strength Steels
100%
Fracture Surface
66%
Martensitic Stainless Steel
66%
Fatigue Behavior
66%
Nonmetallic Inclusion
66%
Experimental Result
33%
Strength Steel
33%
Damage Mechanism
33%
Controlled Fatigue
33%
Mechanical Fatigue Test
33%
Plastic Deformation
33%
Ultimate Tensile Strength
33%
Cyclic Loading
33%
Failure Mode
33%
Microstructural Evolution
33%
Fatigue Limit
33%
Confocal Microscopy
33%
Fatigue Strength
33%
Silicon Dioxide
33%
Microhardness
33%
Material Science
Fatigue of Materials
100%
Crack Initiation
100%
High-Cycle Fatigue
100%
High Strength Steels
100%
Martensitic Stainless Steel
66%
Non-Metallic Inclusions
66%
Fatigue Behavior
66%
Plastic Deformation
33%
Microstructural Evolution
33%
Surface Analysis
33%
Confocal Microscopy
33%
Scanning Electron Microscopy
33%
Surface Crack
33%
Microstructure Characterization
33%
Ultimate Tensile Strength
33%
Surface Property
33%
Microhardness
33%
INIS
failures
100%
fatigue
100%
low alloy steels
100%
steels
90%
microstructure
30%
crack propagation
30%
martensitic steels
30%
values
20%
surfaces
20%
pressure range mega pa
20%
inclusions
20%
hardening
20%
fractures
20%
pressure range giga pa
20%
comparative evaluations
10%
hardness
10%
morphology
10%
shape
10%
scanning electron microscopy
10%
tensile strength
10%
increasing
10%
alloys
10%
damage
10%
loading
10%
plasticity
10%
lasers
10%
investigations
10%
yield strength
10%
microscopy
10%
manganese oxides
10%
concentrators
10%