byeong-joo lee calphad. byeong-joo lee calphad “numerical treatment of moving interface in...
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![Page 1: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/1.jpg)
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Byeong-Joo Lee www.postech.ac.kr/~calphad
• “Numerical Treatment of Moving Interface in Diffusional Reactions,” Byeong-Joo Lee and Kyu Hwan Oh, Z. Metallkunde 87, 195-204 (1996).
• “Numerical Procedure for Simulation of Multicomponent and Multi-Layered Phase
Diffusion,” Byeong-Joo Lee, Metals and Materials 5, 1-15 (1999).
• “Numerical Simulation of Diffusional Reactions between Multiphase Alloys with Different Matrix Phases,”
Byeong-Joo Lee, Scripta Materialia 40, 573-579 (1999).
• “Prediction of the Amount of Retained delta-ferrite and Microsegregation in an Austenitic Stainless Steel,” Byeong-Joo Lee, Z. Metallkunde 90, 522-530 (1999).
• “Evaluation of Off-Diagonal Diffusion Coefficient from Phase Diagram Information,” Byeong-Joo Lee, J. Phase Equilibria 22, 241-246 (2001).
• “Thermo-Calc & DICTRA, computational tools for materials science,” J.-O. Andersson, Thomas Helander, Lars Höglund, Pingfang Shi and Bo Sundman, CALPHAD 26, 273-312 (2002)
ReferencesReferences
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Byeong-Joo Lee www.postech.ac.kr/~calphad
Diffusional Reactions Diffusional Reactions – binary & multicomponent systems– binary & multicomponent systems
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Multicomponent Diffusion Multicomponent Diffusion
Fe-3.8Si-C Fe-C
Darken’s uphill diffusionDarken’s uphill diffusionDiffusion between multiphase layersDiffusion between multiphase layersA. Engström, Scand. J. Metall. 24, 12 (1995).
B.-J. Lee, J. Phase Equilibria 22, 241 (2001).
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ContentContent1. 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
5. Modelling of Multicomponent Diffusion ․ Darken's experiments : Fe-Si-C ․ Mathematical Formalism for Multicomponent Diffusion Coefficient
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DefinitionDefinition
Homogenization phenomena by non-convective mass transport due to chemical potential or
electrochemical potential difference in a multicomponent single phase
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General Phenomenological EquationGeneral Phenomenological Equation
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Fick’s 1Fick’s 1stst law law
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Fick’s 2Fick’s 2ndnd law law
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Byeong-Joo Lee www.postech.ac.kr/~calphad
As a thermally activated process
for interstitial diffusion
More about Diffusion Coefficient More about Diffusion Coefficient – Thermal Activation– Thermal Activation
2
61 BBD
RTG
z m expB
RTH
RS
zD mmB
expexp
61 2
RTQ
DD DBB
exp0
mD HQ How about for substitutional diffusion?
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Steady State Solution of Diffusion Steady State Solution of Diffusion
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion - Superposition Principle- Superposition Principle
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion - Superposition Principle- Superposition Principle
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Application of Superposition Principle– Application of Superposition Principle
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Leak Test & Error Function– Leak Test & Error Function
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Semi-Infinite Source– Semi-Infinite Source
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Semi-Infinite Source– Semi-Infinite Source
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Semi-Infinite Source– Semi-Infinite Source
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Semi-Infinite Source– Semi-Infinite Source
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Semi-Infinite Source– Semi-Infinite Source
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Semi-Infinite Source– Semi-Infinite Source
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Determination of Diffusivity Determination of Diffusivity – Grube method– Grube method
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Determination of Diffusivity Determination of Diffusivity – Boltzmann-Matano– Boltzmann-Matano
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Separation of Variable– Separation of Variable
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Separation of Variable– Separation of Variable
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Separation of Variable– Separation of Variable
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Separation of Variable– Separation of Variable
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Non-Steady State Solution of Diffusion Non-Steady State Solution of Diffusion – Separation of Variable– Separation of Variable
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Diffusion along High Diffusion Path Diffusion along High Diffusion Path – Grain Boundary Diffusion Model – Grain Boundary Diffusion Model
dx
dCD
tL
mJ L
LL
2
dx
dCLDm LL
2
dx
dCD
Lt
mJ gb
gbgb
2
dx
dCLDm gbgb 2
LD
D
dx
dCLD
dx
dCLD
m
m
L
gb
L
gb
L
gb 22
2
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Diffusion Simulation – Finite Difference MethodDiffusion Simulation – Finite Difference Method
x
CC
x
C ji
ji
211
211
2
2
)(
2
x
CCC
x
C ji
ji
ji
t
CC
t
C ji
ji
1
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Diffusion Simulation – Finite Difference MethodDiffusion Simulation – Finite Difference Method
2
2
x
CD
t
C
)2()(
)(112
1 ji
ji
ji
ji
ji CCC
x
tDCC
D
xt
2
)( 2
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Diffusion Simulation – Finite Difference MethodDiffusion Simulation – Finite Difference Method implicit integer (i-n) implicit double precision (a-h,o-z) dimension U(1000), UF(1000)c write(*,'(a)',advance='NO') ' Length of Simulation (micro-m) ? ' read(*,*) XL write(*,'(a)',advance='NO') ' Initial Composition (U-fraction) ? ' read(*,*) Uini write(*,'(a)',advance='NO') ' Boundary (Left-end) Composition ? ' read(*,*) U0 write(*,'(a)',advance='NO') ' Diffusion Coefficient (cm^2/sec) ? ' read(*,*) D write(*,'(a)',advance='NO') ' Reaction Time (sec) ? ' read(*,*) Tend write(*,'(a)',advance='NO') ' number of grid ? ' read(*,*) nc D = 1.d+08 * D dx = XL / dble(n-1) dt = 0.25d0 * dx * dx / D dtdx = D * dt / dx / dxc xiter = Tend / dt nprnt = idint(xiter/10.d0)cc initial conditionc U = Uini UF = Uini time = 0.d0 iter = 0
open(unit=1,file='result.exp',status='unknown') write(1,'(a,f12.6)') '$ time = ', time write(1,'(f6.2,f12.6,a)') 0.d0, uf(1), ' M' do i = 2, n write(1,'(f6.2,f12.6)') dble(i-1)*dx, uf(i) enddocc Boundary condition U(1) = U0 UF(1) = U0 U(n+1) = U(n-1)c 1 iter = iter + 1 time = time + dt do i = 2, n uf(i) = u(i) + dtdx * ( u(i+1) - 2.d0*u(i) + u(i-1) ) enddo uf(n+1) = uf(n-1)c u = ufc if(mod(iter,nprnt) .eq. 0) then write(1,'(a,f12.6)') '$ time = ', time write(1,'(f6.2,f12.6,a)') 0.d0, uf(1), ' M' do i = 2, n write(1,'(f6.2,f12.6)') dble(i-1)*dx, uf(i) enddo endifc if(time.lt.tend) goto 1 stop end
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Diffusion Simulation – Finite Difference MethodDiffusion Simulation – Finite Difference Method
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Diffusion Coefficient Diffusion Coefficient – Inter Diffusion– Inter Diffusion
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Diffusion Coefficient Diffusion Coefficient – Inter Diffusion– Inter Diffusion
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Diffusion Coefficient Diffusion Coefficient – Self/Tracer Diffusion– Self/Tracer Diffusion
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Diffusion Coefficient Diffusion Coefficient – Intrinsic Diffusion Coefficient– Intrinsic Diffusion Coefficient
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Diffusion Coefficient Diffusion Coefficient – Inter Diffusion Coefficient– Inter Diffusion Coefficient
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B
BBAAB Nd
dDNDND
ln
ln1)(
~ **
• 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
B
BBB Nd
dDD
ln
ln1*
• Tracer diffusion Coefficient – as a function of composition & temp.
)0(* BB ND
RTNQB
oBBB
BBeNDTND /)(* )(),(
: tracer impurity diffusion coefficient
: self-diffusion of A in the given
structure
)0(* BA ND
Diffusion Coefficient Diffusion Coefficient – Modeling – Modeling
selfABB DND ** )0(
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Diffusion Coefficient Diffusion Coefficient – Modeling – Modeling
assuming composition independent D o
21
2
221
1
1
221
21
21
1
**/
221
21
21
1* nn
n
Nnn
n
N
RTQnn
nQ
nn
n
oBB DDeDN
nn
nN
nn
nD
• Linear composition dependence of QB in a composition range N1 ~ N2
221
21
21
12
21
21
21
1 )()( Qnn
nQ
nn
nN
nn
nN
nn
nQNQ
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 RTNQNQRTNQNDBB
BBBoBBBB
oB eeeeTND /)()(/)()(ln* ),(
Both Q o & Q are modeled as a linear function of composition
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Moving Boundary Problem Moving Boundary Problem – Basic – Basic EquationEquation
RLk
LRk
RLk
LLRk
R JJCvCv ////
)( // RLk
LRk CCv
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Binary DiffusionBinary Diffusion
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Modeling of Multi-Component Diffusion Modeling of Multi-Component Diffusion - Basic Assumption- Basic Assumption
V x Vm k kk
n
1
V Vk S
Vk 0
for k S (substitutional) for k S
V x V V xm k kk
n
S kk S
1
Cx
V
x
xV u Vk
k
m
k
jj S
S k S
/ /
u x xk k jj S
/
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V Jk kk
n
0
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Modeling of Multi-Component Diffusion Modeling of Multi-Component Diffusion - Reference Frame- Reference Frame
![Page 46: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/46.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Mathematical Formalism of Multi-Component Diffusion CoefficientMathematical Formalism of Multi-Component Diffusion Coefficient
![Page 47: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/47.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Mathematical Formalism of Multi-Component Diffusion CoefficientMathematical Formalism of Multi-Component Diffusion Coefficient
![Page 48: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/48.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Mathematical Formalism Mathematical Formalism - Application to Binary and Ternary Solutions- Application to Binary and Ternary Solutions
![Page 49: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/49.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Mathematical Formalism Mathematical Formalism - Application to Binary and Ternary Solutions- Application to Binary and Ternary Solutions
![Page 50: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/50.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Smithells Metals Reference Book, 1992
Mathematical Formalism Mathematical Formalism - Application to Binary and Ternary Solutions- Application to Binary and Ternary Solutions
![Page 51: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/51.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
John Ågren, Scripta Metallurgica 20, 1507-10 (1986).
Mathematical Formalism Mathematical Formalism - Application to Binary and Ternary Solutions- Application to Binary and Ternary Solutions
![Page 52: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/52.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Mathematical Formalism Mathematical Formalism - Application to Binary and Ternary Solutions- Application to Binary and Ternary Solutions
![Page 53: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/53.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – for C in Fe-C-M ternary system– for C in Fe-C-M ternary system
J D C D CC CC C CM M
J u y Mu u
V C u y Mu u
V CC C Va CVaC
C
C
VaS C C Va CVa
C
M
C
FeS M
y yC Va 1 y yFe M 1
J y y Md
dyV C y y M
d
dyV CC C Va CVa
C
CS C C Va CVa
C
MS M
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dyVCC C Va CVa
C
C y
S
M
D y y M
d
dyVCM C Va CVa
C
M y
S
C
D Dd
dy
d
dy
dy
dyCM CCC
M y
C
C y
C
MC M C
/ /
![Page 54: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/54.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – Darken’s uphill diffusion– Darken’s uphill diffusion
Fe-3.8Si-C
and
Fe-C
![Page 55: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/55.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – Darken’s uphill diffusion– Darken’s uphill diffusion
![Page 56: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/56.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – Darken’s uphill diffusion– Darken’s uphill diffusion
Fe-3.8Si-C and
Fe-6.45Mn-C
![Page 57: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/57.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – Darken’s uphill diffusion– Darken’s uphill diffusion
![Page 58: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/58.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – FDM approach for Fe-Si-C– FDM approach for Fe-Si-C
![Page 59: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/59.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Moving Boundary Problem Moving Boundary Problem – Basic Equation– Basic Equation
RLk
LRk
RLk
LLRk
R JJCvCv ////
)( // RLk
LRk CCv
![Page 60: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/60.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Binary DiffusionBinary Diffusion
![Page 61: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/61.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Application to Interfacial Reactions Application to Interfacial Reactions – Ti/Al– Ti/Al22OO33 Reaction Reaction
![Page 62: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/62.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Application to Interfacial Reactions Application to Interfacial Reactions – Ti/Al– Ti/Al22OO33 Reaction Reaction
![Page 63: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/63.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – Case Study : Fe-Cr-Ni– Case Study : Fe-Cr-Ni
![Page 64: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/64.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – Case Study : Fe-Cr-Ni– Case Study : Fe-Cr-Ni
![Page 65: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/65.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – between Multi-Phase Layers– between Multi-Phase Layers
2 2
1
( )
( ' ' ' ' )
/ /
/,
/,
J J t m
u u u ukR L
kL R
kcorr
kR L
k m kL R
k m
j
jk
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![Page 66: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/66.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – between Multi-Phase Layers– between Multi-Phase Layers
![Page 67: Byeong-Joo Lee calphad. Byeong-Joo Lee calphad “Numerical Treatment of Moving Interface in Diffusional Reactions,”](https://reader035.vdocuments.us/reader035/viewer/2022062320/56649f4c5503460f94c6cc99/html5/thumbnails/67.jpg)
Byeong-Joo Lee www.postech.ac.kr/~calphad
Multi-Component Diffusion Simulation Multi-Component Diffusion Simulation – between Multi-Phase Layers– between Multi-Phase Layers