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MLB - Core Courses -3.21- Kinetic processes in materials
Jean-Philippe Péraud Course 2 May 4th, 2012
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Phase Transformations
Mass Diffusion in general -Mathematical concepts -Diffusion equation and associated phenomena -Solution methods 3 main parts Diffusion processes -relate microscopic effects to macroscopic equations and parameters Phase Transformations -continuous -discontinuous -kinetics of transformation -stability problems
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Forces and fluxes Force-flux relations force=-grad(potential) Onsager
Constraint on quantities merges potentials. network constraint, electrochemical, elastochemical potential…
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Diffusivities and frames
1 *1 Self-diffusivity *D Intrinsic diffusivity Interdiffusivity, Darken equation
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Interdiffusion & Kirkendall
JA C-Frame JV JB A B v Vacancy sinks Dislocation shrink Vacancy sources Dislocation climb
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Solution of diffusion equation: Toolbox
Point source Step function Fourier series + superposition principle +method of images
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Typical problems C=0 J=0
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Diffusivity and random walks
Sequence of random jumps Average displacement = 0 Average squared displacement proportional to D
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Diffusivity and random walks
Simple models for frequency of jumps More or less complicated depending on diffusion mechanism Correlation factor
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Diffusion in ionic crystals
Kröger-Vink notation, Schottky, Frenkel defects Be able to write the equation of incorporation of impurities Use equation of equilibrium (Keq)+balance of charges Identify diffusion regimes D Position depends on PO2 1/T
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Other diffusion mechanisms. In brief.
In grain boundaries In amorphous materials Polymers (by reptation)
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Capillary phenomena: surface smoothing
By surface diffusion By vapor transport + + + - - -
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Capillary phenomena: anisotropic surface tension
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Capillary phenomena: coarsening and grain growth
Diffusion limited Source-limited N-6 rule grows shrinks Fluxes of atoms joining or leaving the particle
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Continuous transformations: spinodal decomposition
Due to concave free energy profile in miscibility gap Be able to explain Cahn-Hilliard equation Kinetics: use perturbation to derive critical and thermodynamic wavelength+amplification factor Credit: Balluffi, Allen, Carter, Kinetics of Materials
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Continuous transformations: order-disorder transformation
No energy barrier in concave up regions Be able to explain Allen-Cahn equation Kinetics: use perturbation to derive critical and thermodynamic wavelength+amplification factor Credit: Balluffi, Allen, Carter, Kinetics of Materials
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Nucleation Curve-to-curve and tangent to curve construction
Calculate Rc and ΔGc Determine steady state rate. Heterogeneous nucleation: almost the same thing
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Not covered: stability of moving interfaces
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Advice Get some sleep Don’t panic
Always try to answer (partial credit)
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Questions
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