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Generalized stacking fault energy, ideal strength and twinnability of dilute Mg-based alloys: A first-principles study of shear deformation
S. L. Shang
, W. Y. Wang
, B. C. Zhou
, Y. Wang
, K. A. Darling
, L. J. Kecskes
, S. N. Mathaudhu
,
Z. K. Liu
Materials Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
229
Scopus citations
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Dive into the research topics of 'Generalized stacking fault energy, ideal strength and twinnability of dilute Mg-based alloys: A first-principles study of shear deformation'. Together they form a unique fingerprint.
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Keyphrases
Generalized Stacking Fault Energy
100%
Mg-based Alloy
100%
Ideal Strength
100%
Fault Property
75%
Generalized Stacking Fault
75%
Fault Energy
50%
Differential Charge Density
25%
Hexagonal Close-packed Lattice
25%
Equilibrium Volume
25%
Cu-Si
25%
Spherical Distribution
25%
Stacking Fault Energy
25%
Energy Curve
25%
Engineering
Shear Deformation
100%
Stacking Fault Energy
100%
Alloying Element
100%
Shear Strength
75%
Hexagonal Close Packed
75%
Fault Energy
50%
Charge Density
25%
Earth and Planetary Sciences
Stacking Fault Energy
100%
Alloying
100%
Shear Strength
75%
Crystal Defect
75%
Stacking
25%
Close Packed Lattice
25%
Material Science
Mechanical Strength
100%
Stacking Fault
100%
Alloying
66%
Shear Strength
50%
Density
16%