Keyphrases
Decohesion
100%
Lath Martensitic Steel
100%
Enhanced Plasticity
100%
Quasi-cleavage Fracture
100%
Induced Failures
66%
Dislocation pile-up
66%
Quasi-cleavage
66%
Lath
33%
Micromechanical Modeling
33%
Fracture Surface
33%
Debonding
33%
Hydrogen Embrittlement
33%
Nanosize
33%
Failure Mechanism
33%
(Ti,Mo)C
33%
Resistance to Hydrogen Embrittlement
33%
Hydrogen Content
33%
Model Prediction
33%
Focused Ion Beam Machining
33%
Intergranular Cracking
33%
Synergistic Action
33%
Transmission Electron Microscopy Analysis
33%
Hydrogen Enhanced Localized Plasticity
33%
Closed-loop System
33%
Microstructural Design
33%
Block Boundary
33%
Recent Transmission
33%
Steel Microstructure
33%
Transgranular Fracture
33%
High-angle Boundary
33%
Prior Austenite Grain Boundary
33%
Engineering
Decohesion
100%
Martensitic Stainless Steel
100%
Cleavage Fracture
100%
Hydrogen Embrittlement
66%
Induced Failure
66%
Dislocation Pile
66%
Transmissions
33%
Grain Boundary
33%
Micromechanical Model
33%
Fracture Surface
33%
Failure Mechanism
33%
Model Prediction
33%
Focused Ion Beam
33%
Closed System
33%
Steel Microstructures
33%
Block Boundary
33%
High Angle Boundary
33%
Transgranular Fracture
33%
Prior Austenite Grain
33%
Material Science
Hydrogen Embrittlement
100%
Martensitic Stainless Steel
100%
Cleavage Fracture
100%
Electron Microscopy
50%
Grain Boundary
50%
Transmission Electron Microscopy
50%
Machining
50%
Austenite
50%
Focused Ion Beam
50%
Transgranular Fracture
50%