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Interfacial coherency and hydrogen damage in plain carbon steel
C. P. Ju
, J. M. Rigsbee
Department of Materials Science and Engineering
International Curriculum for Advanced Materials Program
Research output
:
Contribution to journal
›
Article
›
peer-review
7
Citations (Scopus)
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Keyphrases
Carbide Particles
25%
Grain Boundary Particles
25%
Grain Interior
25%
Hydrogen Damage
100%
Hydrogen Recombination
25%
Hydrogen-induced Damage
25%
Individual Grains
25%
Interphase Boundary
75%
Irreversible Damage
25%
Lamellar Cementite
25%
Large Angle Grain Boundary
25%
Manganese Sulfide Inclusions
25%
Microcrack nucleation
50%
Pearlitic Structure
25%
Plain Carbon Steel
100%
Spheroidized Cementite
75%
Subgrain Boundary
25%
Surface Blistering
25%
Material Science
Carbide
66%
Carbon Steel
100%
Grain Boundary
100%
Manganese
33%
Medium-Carbon Steels
33%
Nucleation
100%
Surface (Surface Science)
33%