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Mathematical modeling of surface deformation during vitrification
Yoed Rabin
Advanced Technologies for Preservation of Biological Systems
Research output
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Contribution to journal
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Article
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peer-review
7
Scopus citations
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Dive into the research topics of 'Mathematical modeling of surface deformation during vitrification'. Together they form a unique fingerprint.
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Keyphrases
Mathematical Modeling
100%
Vitrification
100%
Surface Deformation
100%
Cryoprotectant
75%
Multiphysics
25%
Viscosity
25%
Fluid-solid
25%
Fluid Mechanics
25%
Heat Effect
25%
Cryopreservation
25%
Temperature Gradient
25%
Amorphous Materials
25%
Coupling Effect
25%
Material Flow
25%
Decreasing Temperature
25%
Mechanical Stress
25%
Cooling Method
25%
Heat Convection
25%
Exponential Increase
25%
Solid Mechanics
25%
Vitrified State
25%
Experimental Support
25%
Heat Transfer Fluid
25%
Combined Outcome
25%
Solid-solid
25%
Deformable Surface
25%
Fracture Inclination
25%
Cryomacroscopy
25%
Engineering
Surface Deformation
100%
Mathematical Modeling
100%
Early Stage
25%
Fluid Mechanics
25%
Decreasing Temperature
25%
Temperature Gradient
25%
Mechanical Stress
25%
Solid Mechanics
25%
Heat Transfer Fluid
25%
Cryopreservation
25%
Fluid Viscosity
25%
Material Flow
25%
Material Science
Vitrification
100%
Amorphous Material
50%
Mechanical Stress
50%
Fluid Mechanics
50%
Solid Mechanics
50%