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Keyphrases
Ni-based Superalloy
71%
Chromia
52%
Microstructure
40%
Bond Coat
40%
Crack Growth
39%
Oxides
39%
Thermal Barrier Coating System
36%
RR1000
36%
Ti-6Al-4V (Ti64)
33%
Room Temperature
32%
Oxidation Damage
31%
Nickel-based Superalloy
30%
Grain Refinement
29%
TiAl Alloy
25%
High Temperature
25%
Transmission Electron Microscopy
24%
Rutile
23%
Topcoat
21%
Sm-Co Alloys
20%
Lamellar Microstructure
20%
Borides
20%
Ductility
19%
Friction
18%
Dislocation
18%
Microstructure Properties
18%
In Situ
18%
Thermal Barrier Coatings
18%
Crack Tip
18%
Burgers
18%
Internal Oxidation
17%
Thermally Grown Oxide
17%
Inconel 718 (IN718)
16%
Inertia
16%
Mechanical Properties
16%
Nickel-based Single Crystal Superalloy
16%
Lamellar Colony
16%
Focussed Ion Beam
16%
Fatigue Life
16%
Fatigue Crack Initiation
16%
Oxidation Kinetics
16%
Selective Laser Melting
16%
Porosity
16%
Beta Phase
16%
Cooling Rate
16%
Carbides
15%
CoFe
15%
Dendrite
15%
Internal Oxidation Zone
15%
Pre-oxidized
14%
Lamellar Spacing
14%
Electron Backscatter Diffraction
14%
Finite Element Modeling
13%
Aluminum Oxide
13%
Grain Boundary
13%
γ' Particle
13%
Directional Solidification
13%
Tensile Properties
12%
Lamellae
12%
Steady State
12%
Fully Lamellar
12%
TBC Systems
12%
Dislocation Behavior
12%
Interdendritic Region
12%
Computational Fluid Dynamics
12%
Inertia Friction Welding
12%
Weld Line
12%
Peritectic
11%
Welding Parameters
11%
Dual-beam
11%
Welding Simulation
10%
Welded Joint
10%
Fatigue Crack Growth Rate
10%
Three-dimensional (3D)
10%
Strong Dependence
10%
Superalloy
10%
Oxidation Protection
10%
Fatigue Crack Growth Resistance
10%
Laser Scanning Speed
10%
Fast Cooling
10%
Electron Microscopy Studies
10%
Phase Transformation
10%
Parabolic Kinetics
9%
Electron Beam Physical Vapor Deposition (EB-PVD)
9%
Lamellar Interface
9%
CuZr
9%
Service Applications
9%
Permanent Magnet
9%
Fe-Cu
9%
Scanning Electron Microscopy
9%
Weld Zone
9%
Internal Oxide
9%
Alpha Phase
9%
Spallation
8%
Digital Volume Correlation
8%
Displacement Mapping
8%
Synchrotron X-ray Computed Tomography
8%
3D Displacement
8%
Layer Growth
8%
Protective Scales
8%
In-situ Tension
8%
Near-tip
8%
Strain Ratcheting
8%
Stationary Crack
8%
Boride Precipitation
8%
Transformation Texture
8%
Coarsening Behavior
8%
Dwell Fatigue Crack Growth
8%
Oxidation Studies
8%
Thermal Stability
8%
Nearest Neighbour Function
8%
Particle Coalescence
8%
Meaning Extension
8%
Oxidation Effect
8%
Oxygen-rich
8%
Al2O3 Scale
8%
Industrial Gas Turbine
8%
Fatigue Crack Propagation Threshold
8%
Residual Distortion
8%
Integrated Modeling
8%
Dynamic Finite Element
8%
Breakaway Oxidation
8%
TiC Addition
8%
Weld Bead
8%
Slice-and-view
8%
Microstructural Assessment
8%
Mechanical Assessment
8%
High Temperature Fatigue
8%
Load Redistribution
8%
Multilayered Thermal Barrier Coatings
8%
O Phase
8%
Cracking Load
8%
Microtensile Strength
8%
Ion Milling
8%
Hydride Formation
8%
Disk Superalloy
8%
Powder Layer Thickness
8%
Surface Porosity
8%
Oxidation Behavior
8%
Hydrides
8%
Electron Microscopy Characterization
8%
Focused Ion Beam Scanning Electron Microscopy (FIB-SEM)
8%
Mean-field Model
8%
MCrAlY
8%
Aluminides
8%
Particle Coarsening
8%
Melt Flow
8%
Friction Welding
8%
Titanium Alloy
8%
Ti-6Al-2Sn-4Zr-6Mo
8%
Finite Element Model
8%
Thermal Profile
8%
Microhardness
8%
Creep Deformation Behavior
8%
Mean Field
8%
Residual Stress
8%
SiC Composites
8%
Metal-oxide Interface
8%
Chemical Composition
8%
Interdiffusion
8%
High Cycle Fatigue
8%
Process Map
8%
Surface Structure
8%
Shot Peening
8%
Sm2Co17
8%
Elevated Temperature
8%
Structure Development
8%
Thermo-fluid Dynamics
8%
Phase-type Distribution
8%
Ti5Si3
8%
γ′ Precipitates
8%
Stress Axis
8%
Ti-6Al-4V Alloy
8%
Laser Welding
8%
Overlay Coating
8%
Niobium Alloy
8%
Growth Kinetics
8%
Toughness
8%
Microstructure Effect
8%
Atom Probe Tomography
8%
Local Stress
8%
Focused Ion Beam
8%
Scanning Electron Microscope
8%
Orientation Effect
8%
Creep Deformation
8%
Fracture Surface
8%
Embrittlement
8%
Finite Element Methodology
8%
Lamellar Orientation
8%
Crack Propagation
8%
Linear Friction
8%
Boron Effect
8%
Hf Addition
8%
Fatigue Crack Growth
8%
Surface Boundary
8%
Turbine Disk
8%
Pre-oxidation
8%
Porosity Evolution
8%
TiAl
8%
Boron Concentration
8%
Yttria-stabilized Zirconia
7%
Material Science
Nickel-Based Superalloys
100%
Oxide Compound
89%
Surface (Surface Science)
63%
Scanning Electron Microscopy
57%
Thermal Barrier Coating
51%
Crack Growth
43%
Superalloys
43%
Aluminum Oxide
43%
Transmission Electron Microscopy
36%
Ti-6Al-4V
34%
Fatigue Crack
29%
Carbide
29%
Fatigue Crack Growth
29%
Focused Ion Beam
27%
Boride
27%
Friction Welding
25%
Grain Refinement
25%
Grain Boundary
23%
Solidification
22%
Single Crystal
20%
Heat Treatment
19%
Ultimate Tensile Strength
19%
Boron
18%
Finite Element Modeling
18%
Crack Tip
18%
Creep
18%
Titanium
16%
Tensile Property
16%
Electron Microscopy
16%
Crack Propagation
16%
Computational Fluid Dynamics
16%
Selective Laser Melting
16%
Coarsening
16%
Crack Initiation
16%
Fatigue of Materials
16%
Electron Backscatter Diffraction
13%
Finite Element Method
13%
Yttria Stabilized Zirconia
13%
Aluminum
13%
Titanium Alloy
12%
Electron Beam Physical Vapor Deposition
11%
Tomography
11%
Solid Solutions
11%
Oxide Surface
11%
Magnetic Property
11%
Welded Joint
10%
Nucleation
10%
High-Cycle Fatigue
10%
Fluid Dynamics
8%
Atom Probe
8%
Digital Volume Correlation
8%
Surface Structure
8%
Thermal Stability
8%
Niobium Alloys
8%
Microhardness
8%
Fracture Toughness
8%
Metal-Oxide Interface
8%
Machining
8%
Residual Stress
8%
Thermal Fatigue
8%
Tensile Testing
8%
Brittle Fracture
8%
Embrittlement
8%
Hydride
8%
X-Ray Diffraction
8%
Compression Testing
8%
Aluminide
8%
Shot Peening
8%
X-Ray Computed Tomography
8%
Composite Material
8%
Activation Energy
8%
Protective Coating
8%
Surface Roughness
6%
Laser Beam Welding
6%
Density
6%
Hot Corrosion
6%
Volume Fraction
6%
Deformation Mechanism
6%
Titanium Dioxide
5%
Martensite
5%
Engineering
Welds
66%
Barrier Coating
52%
Thermal Barrier
52%
Coating System
46%
Bond Coat
46%
Ti-6al-4v
30%
Subsurface
28%
Oxidation Zone
25%
Creep
23%
Aluminum Oxide
21%
Crack Growth
20%
Isothermal
19%
Surface Oxide
18%
Cooling Rate
17%
Friction Welding
16%
Oxidation Kinetics
16%
Tensile Property
16%
Selective Laser Melting
16%
Porosity
16%
Room Temperature
16%
Single Crystal Superalloys
16%
Directional Solidification
16%
Oxide Layer
15%
Permanent Magnet
15%
Computational Fluid Dynamics
13%
Crack Growth Rate
12%
Tensiles
12%
Finite Element Analysis
12%
Fem Model
12%
Yttria-Stabilized Zirconia
12%
Oxide Scale
12%
Fatigue Crack Growth
11%
Temperature Range
11%
Crack Tip
11%
Alpha Phase
11%
Alloy Composition
10%
Physical Vapor Deposition
9%
Ti-6al-4v Alloy
9%
Outer Surface
8%
Nucleation Mechanism
8%
Silicon Dioxide
8%
Stationary Crack
8%
Rich Region
8%
Fourth Generation
8%
Focused Ion Beam
8%
Local Stress
8%
Fracture Surface
8%
Elastic Stress
8%
Scanning Electron Microscope
8%
Eutectics
8%
Oxygen Content
8%
Induced Embrittlement
8%
Industrial Gas Turbine
8%
Lamellar Interface
8%
Brittle Fracture
8%
Solidification Process
8%
High-Temperature Fatigue
8%
Process Map
8%
Thermal Fluid
8%
Fluid Dynamics
8%
Applied Stress
8%
Surface Condition
8%
Fits and Tolerances
8%
Disc Turbine
8%
Microhardness
8%
Interdiffusion
8%
Deformation Behavior
8%
Melt Flow
8%
Backscattered Electron
8%
Residual Stress
8%
Field Model
8%
Shot Peening
8%
Loading Condition
8%
Structure Surface
8%
Growth Kinetics
8%
Ultimate Tensile Strength
8%
Gas Turbine
8%
Micrograph
8%
Boundary Surface
8%
Boron Concentration
8%
Elevated Temperature
8%
Bridging
8%
Quenched End
8%
Phase Field
8%
Fracture Behavior
8%
Outer Layer
8%
Tensile Stress σ
7%
Strain Energy
7%
Exposure Time
6%
Intermediate Temperature
6%
Solid Solutions
6%
Available Energy
6%
Powder Layer
5%
Secondary Electrons
5%
Peritectic Reaction
5%
Selected Temperature
5%
Tensile Test
5%
Parent Material
5%
Finite Element Modeling
5%