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Interaction of hydrogen with crack-tip plasticity: Effects of constraint on void growth
Y. Liang,
P. Sofronis
, R. H. Dodds
Grainger College of Engineering
Mechanical Science and Engineering
Materials Science and Engineering
Materials Research Lab
Center for East Asian and Pacific Studies
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peer-review
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Dive into the research topics of 'Interaction of hydrogen with crack-tip plasticity: Effects of constraint on void growth'. Together they form a unique fingerprint.
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Keyphrases
Void Growth
100%
Crack Tip Plasticity
100%
Plasticity Effect
100%
Stress-strain
50%
Small Scale Yielding
50%
Hydrogen-induced Softening
50%
Plastic Strain
50%
Ductile Fracture
50%
Finite Element Simulation
25%
Numerical Results
25%
Crack Tip
25%
Strain Field
25%
Local Strain
25%
Rice
25%
Plane Strain
25%
Hydrogen Concentration
25%
Dilatation
25%
Fracture Process
25%
T-stress
25%
Niobium
25%
Hydrogen Degradation
25%
Stress Value
25%
High Solubility
25%
Near-tip Fields
25%
Relative Resistance
25%
Crack-front Constraints
25%
Crack Tip Constraint
25%
Microscale Effect
25%
Engineering
Crack Tip
100%
Void Growth
100%
Plasticity Effect
100%
Small Scale Yielding
50%
Plastic Strain
50%
Ductile Fracture
50%
Microscale
25%
Finite Element Simulation
25%
Strain Field
25%
Plane Strain
25%
Local Strain
25%
Scale Yielding Condition
25%
Crack Front
25%