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On the entropic nucleation barrier in a martensitic transformation
Oliver Kastner,
Roni Z. Shneck
Department of Materials Engineering
Research output
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Contribution to journal
›
Article
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peer-review
14
Scopus citations
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Keyphrases
Adiabatic Condition
33%
Atomic Motion
33%
Atomic Trajectories
66%
Correlation Process
66%
Domain nucleation
33%
Elevated Temperature
33%
Entropic Barrier
66%
Entropic Stabilization
33%
Free Energy
33%
In Alloy
33%
Leading Effect
33%
Martensite
33%
Martensitic
33%
Martensitic Transformation
100%
Molecular Dynamics Simulation
33%
Narrow Domain
33%
Nucleation Barrier
100%
Nucleation Mechanism
66%
Parent Phase
66%
Phase Space
33%
Phase Space Analysis
33%
Potential Energy
33%
Potential Energy Barrier
33%
Product Lattice
66%
Single Crystal
33%
Soft Mode
33%
Space Domain
33%
Strain Field
33%
Thermal Fluctuations
33%
Transformation Pathways
33%
Transformation Process
33%
Undercooling
66%
Vibrational Mode Analysis
33%
Engineering
Computer Simulation
50%
Correlation Process
100%
Elevated Temperature
50%
Energy Barrier
50%
Energy Nucleation
50%
Martensite
50%
Mode Analysis
50%
Phase Space
100%
Potential Energy
100%
Strain Field
50%
Thermal Fluctuation
50%
Transformation Process
50%
Chemistry
Gibbs Free Energy
11%
Martensite
11%
Martensitic Transformation
100%
Molecular Dynamics
11%
Nucleation
100%
Phase Space
22%
Potential Energy
11%
Potential Energy Barrier
11%
Single Crystalline Solid
11%
Material Science
Martensite
11%
Morphology
11%
Nucleation
100%
Single Crystal
11%