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Byeong-Joo Lee POSTECH - MSE calphad@postech.ac.kr

Microstructure Evolution. Diffusion. Byeong-Joo Lee POSTECH - MSE calphad@postech.ac.kr. Objectives. 1. Introduction   ․ Definition   ․ Diffusion Mechanism: Vacancy Mechanism, Interstitial Mechanism 2. Diffusional Flux and Application of Fick's law

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Byeong-Joo Lee POSTECH - MSE calphad@postech.ac.kr

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  1. Microstructure Evolution • Diffusion Byeong-Joo Lee POSTECH - MSE calphad@postech.ac.kr

  2. Objectives 1. Introduction   ․ Definition   ․ Diffusion Mechanism: Vacancy Mechanism, Interstitial Mechanism 2. Diffusional Flux and Application of Fick's law   ․Fick's first law in two component system   ․Fick's second law      Application - Steady State Solution 3. Non-Steady State Diffusion   ․ Thin Film Source (Thin Layer)   ․ Semi-Infinite Source (Diffusion Couple)      ․ Laplace/Fourier Transformation      ․ Error function      ․ Homogenization/Solute penetration   ․ Trigonometric-Series Solutions   ․ Determination of diffusion coefficient (Grube, Boltzman-Matano method)   ․ Other Examples   ․ Diffusion along high diffusion paths 4. Diffusion Coefficients   ․ Reference Frame of Diffusion ⇒ Darken's Equation   ․ Intrinsic, Inter, Self, Trace, Impurity Trace Diffusion Coefficient   ․ Reference : Smithells Metals Reference Book, Chap. 13., Reed-Hil

  3. When metal A meets metal B Interstitial solid solution Substitutional solid solution precipitation

  4. Diffusional Reactions – binary & multicomponent systems

  5. Multicomponent Diffusion Diffusion between multiphase layers Darken’s uphill diffusion A. Engström, Scand. J. Metall. 24, 12 (1995). B.-J. Lee, J. Phase Equilibria 22, 241 (2001). Fe-3.8Si-C Fe-C

  6. Definition Homogenization phenomena by non-convective mass transport due to chemical potential or electrochemical potential difference in a multicomponent single phase

  7. Fick’s 1st Law Consider net flux from plane 1 to plane 2 atoms m-2 s-1 m2 s-1

  8. Fick’s 1st Law

  9. Fick’s 2nd Law Consider the change of solute concentration between plane 1 and plane 2 during δt for a constant DB

  10. Fick’s 2nd Law

  11. More about Diffusion Coefficient – Thermal Activation As a thermally activated process How about for substitutional diffusion? for interstitial diffusion

  12. Steady State Solution of Diffusion

  13. Non-Steady State Solution of Diffusion

  14. Non-Steady State Solution of Diffusion - Superposition Principle

  15. Non-Steady State Solution of Diffusion - Superposition Principle

  16. Non-Steady State Solution – Application of Superposition Principle

  17. Non-Steady State Solution – Leak Test & Error Function

  18. Non-Steady State Solution of Diffusion – Semi-Infinite Source

  19. Non-Steady State Solution of Diffusion – Semi-Infinite Source

  20. Non-Steady State Solution of Diffusion – Semi-Infinite Source

  21. Non-Steady State Solution of Diffusion – Semi-Infinite Source

  22. Non-Steady State Solution of Diffusion – Semi-Infinite Source

  23. Non-Steady State Solution of Diffusion – Semi-Infinite Source

  24. Determination of Diffusivity – Grube method

  25. Determination of Diffusivity – Boltzmann-Matano

  26. Non-Steady State Solution of Diffusion – Separation of Variable

  27. Non-Steady State Solution of Diffusion – Separation of Variable

  28. Non-Steady State Solution of Diffusion – Separation of Variable

  29. Non-Steady State Solution of Diffusion – Separation of Variable

  30. Non-Steady State Solution of Diffusion – Separation of Variable

  31. Diffusion along High Diffusion Path – Grain Boundary Diffusion Model

  32. Diffusion Coefficient – Inter Diffusion

  33. Diffusion Coefficient – Inter Diffusion

  34. Diffusion Coefficient – Self/Tracer Diffusion

  35. Diffusion Coefficient – Intrinsic Diffusion Coefficient

  36. Diffusion Coefficient – Inter Diffusion Coefficient

  37. Diffusion Coefficient – Modeling • Inter-diffusion Coefficient in a binary alloy • – linked to intrinsic diffusion by the Darken’s relation • Intrinsic diffusion Coefficient • – composed of mobility term (Tracer Diffusion) and thermodynamic factor • Tracer diffusion Coefficient – as a function of composition & temp. : tracer impurity diffusion coefficient : self-diffusion of A in the given structure

  38. Diffusion Coefficient – Modeling • Linear composition dependence of QB in a composition range N1 ~ N2 • assuming composition independent D o • Tracer diffusion Coefficient at an intermediate composition • is a geometrical mean of those at both ends – from experiments • the same for the D o term • Both Q o & Q are modeled as a linear function of composition

  39. Moving Boundary Problem – Basic Equation

  40. Binary Diffusion

  41. Application to Interfacial Reactions – Ti/Al2O3 Reaction

  42. Application to Interfacial Reactions – Ti/Al2O3 Reaction

  43. Multi-Component Diffusion Simulation – between Multi-Phase Layers A. Engström, Scand. J. Metall. 24, 12 (1995). B.-J. Lee, Scripta Mater. 40, 573 (1999)

  44. Multi-Component Diffusion Simulation – between Multi-Phase Layers B.-J. Lee, Scripta Mater. 40, 573 (1999)

  45. Multi-Component Diffusion Simulation – between Multi-Phase Layers B.-J. Lee, Scripta Mater. 40, 573 (1999)

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