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Numerical modeling of superplastic deformation mechanisms
N. Chandra
, P. Dang
Research output
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Article
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peer-review
3
Scopus citations
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Dive into the research topics of 'Numerical modeling of superplastic deformation mechanisms'. Together they form a unique fingerprint.
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Keyphrases
Numerical Modeling
100%
Deformation Mechanism
100%
Superplastic Deformation
100%
Threshold Stress
100%
Strain Rate
50%
Superplastic
50%
Numerical Model
25%
Material Behavior
25%
Temperature Effect
25%
Atomic Level
25%
Flow Stress
25%
Grain Size
25%
Log-log Plot
25%
Micromechanics
25%
Superplasticity
25%
High Strain Rate
25%
Macro Level
25%
Superplastic Behavior
25%
Strain Rate Sensitivity
25%
Wide Range of Strain Rates
25%
7475 Aluminum Alloy
25%
Al-Zn-Mg-Cu Alloy
25%
Diffusional
25%
Engineering
Numerical Modeling
100%
Superplastic Deformation
100%
Threshold Stress
100%
Deformation Mechanism
100%
Rates of Strain
50%
High Strain Rate
25%
Strain Rate
25%
Numerical Model
25%
Micromechanics
25%
Flow Stress
25%
Macro Level
25%
Log Plot
25%
Diffusional Flow
25%
Strain Rate Sensitivity
25%
Material Science
Strain Rate
100%
Deformation Mechanism
100%
Grain Size
20%
Aluminum Alloys
20%
Superplasticity
20%
Micromechanics
20%
Copper Alloys
20%