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Critical assessment of hydrogen effects on the slip transmission across grain boundaries in α-Fe
I. Adlakha,
Kiran Solanki
Engineering of Matter, Transport and Energy, School for (IAFSE-SEMTE)
Mechanical and Aerospace Engineering
Materials Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
29
Scopus citations
Overview
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Dive into the research topics of 'Critical assessment of hydrogen effects on the slip transmission across grain boundaries in α-Fe'. Together they form a unique fingerprint.
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Mathematics
Grain Boundary
100%
Hydrogen
89%
Slip
79%
Dislocation
33%
Energy
18%
Interaction
14%
Crack Initiation
11%
Screw Dislocation
10%
Tilt
9%
Energy Balance
9%
Strain Energy
8%
Susceptibility
8%
Strengthening
7%
Motion
4%
Observation
4%
Simulation
4%
Demonstrate
4%
Physics & Astronomy
slip
57%
grain boundaries
50%
hydrogen
41%
energy
9%
interfacial energy
8%
interactions
8%
crack initiation
7%
screw dislocations
7%
magnetic permeability
4%
causes
4%
simulation
2%
Engineering & Materials Science
Grain boundaries
68%
Hydrogen
53%
Energy barriers
20%
Screw dislocations
11%
Interfacial energy
8%
Strain energy
7%
Energy balance
7%
Crystalline materials
7%
Crack initiation
6%