Keyphrases
Accelerated Fatigue Test
12%
Axial Crack
16%
Carbides
12%
Composite Materials
12%
Constitutive Response
12%
Crack Growth
18%
Crack Initiation
11%
Crack Propagation
12%
Crack Tip
75%
Creep
13%
Decohesion
34%
Degradation Mechanism
13%
Dislocation
35%
Elastoplasticity
15%
Embrittlement
17%
Enhanced Plasticity
15%
Fatigue Crack Growth
20%
Fracture Surface
32%
Gas Pressure
12%
Grain Boundary
21%
High Temperature
13%
Hydride Formation
21%
Hydrides
18%
Hydrogen Concentration
42%
Hydrogen Diffusion
30%
Hydrogen Effect
32%
Hydrogen Embrittlement
85%
Hydrogen Enhanced Localized Plasticity
27%
Hydrogen Gas
26%
Hydrogen Transport
41%
Hydrogen-induced Cracking
14%
Hydrostatic Stress
16%
Induced Fracture
13%
Interface Diffusion
12%
Intergranular Cracking
12%
Low Carbon Steel
16%
Microcracks
11%
Micromechanical Modeling
14%
Micromechanics
21%
Microstructural Defects
11%
Microstructure
30%
Pipeline Steel
21%
Plane Strain
20%
Plastic Strain
12%
Plasticity Mechanisms
16%
Quasi-cleavage
13%
Rice
14%
Stress Field
14%
Structural Materials
19%
Void Growth
44%
Engineering
Applied Stress
12%
Austenitic Stainless Steel
17%
Bend Specimen
9%
Boundary Value
16%
Chemical Potential
10%
Composite Material
22%
Constitutive Model
12%
Crack Growth
12%
Crack Propagation
16%
Crack Tip
78%
Creep
25%
Creep Resistance
10%
Decohesion
37%
Defects
17%
Embrittlement
26%
Energy Engineering
13%
Experimental Observation
14%
Fatigue Crack Growth
22%
Finite Element Method
35%
Flow Stress
10%
Fracture Surface
33%
Gas Pressure
15%
Grain Boundary
24%
High-Temperature Hydrogen Attack
12%
Hydride Formation
20%
Hydrogen Embrittlement
56%
Hydrogen Gas
19%
Hydrostatic Stress
15%
Impact Toughness
13%
Internals
10%
Local Stress
12%
Martensitic Stainless Steel
11%
Matrix Interface
12%
Micromechanics
18%
Microstructure
34%
Mild Steel
15%
Plane Strain
23%
Plastic Deformation
10%
Plastic Strain
14%
Production Facility
10%
Refuelling Station
10%
Small Scale Yielding
9%
Steel Pipeline
29%
Stress Field
11%
Stress-Intensity Factor
16%
Structural Materials
14%
Transients
36%
Transmissions
32%
Void Growth
43%
Welds
11%
Material Science
Austenitic Stainless Steels
19%
Building Material
27%
Carbide
18%
Cleavage Fracture
7%
Cobalt-Nickel Alloys
6%
Composite Material
19%
Constitutive Modeling
6%
Crack Growth
27%
Crack Initiation
11%
Crack Propagation
19%
Crack Tip
81%
Creep
29%
Creep Resistance
9%
Density
28%
Dislocation Structure
11%
Elastic Moduli
7%
Elastoplasticity
18%
Embrittlement
37%
Fatigue Crack Growth
14%
Finite Element Method
46%
Finite Element Modeling
13%
Focused Ion Beam
9%
Fracture Mechanics
9%
Fracture Toughness
15%
Grain Boundary
41%
High Strength Steels
10%
Hydride
26%
Hydrogen Embrittlement
100%
Intergranular Fracture
13%
Low Carbon Steel
10%
Machining
9%
Martensitic Stainless Steel
11%
Materials Property
15%
Mechanical Property
7%
Mechanical Strength
35%
Mechanical Testing
6%
Micromechanics
21%
Nucleation
16%
Plastic Deformation
11%
Plastic Flow
9%
Powder
7%
Solid Mechanics
12%
Solid Propellant
12%
Stress Field
10%
Stress Intensity Factor
19%
Stress Relaxation
7%
Surface Diffusion
6%
Surface Energy
8%
Transmission Electron Microscopy
17%
Void Growth
38%
