Keyphrases
Strengthening Mechanism
100%
Precipitation Strengthening
100%
Twinning-induced Plasticity Steel
100%
Stress Corrosion Cracking
100%
High Manganese
28%
Stress Corrosion Resistance
28%
Martensite
14%
Defect Density
14%
Ductility
14%
Manganese
14%
Lattice Defects
14%
Hydrogen Content
14%
Mechanical Loading
14%
Density Level
14%
Tensile Stress
14%
Corrosion Behavior
14%
Stress Environment
14%
Alloying Elements
14%
Strength Level
14%
Cracking Behavior
14%
Carbon Addition
14%
Corrosion Environment
14%
Sudden Failure
14%
Automotive Applications
14%
Corrosion Reaction
14%
Corrosion Susceptibility
14%
Cracking Failure
14%
Strain Hardening Effect
14%
Hydrogen Embrittlement
14%
Mechanical Twins
14%
Resistance to Hydrogen Embrittlement
14%
Material Science
Stress Corrosion Cracking
100%
TWIP Steel
100%
Corrosion
57%
Manganese
42%
Hydrogen Embrittlement
28%
Ultimate Tensile Strength
14%
Martensite
14%
Defect Density
14%
Work Hardening
14%
Alloying
14%
Crystal Defect
14%