1 day 2. interfacial forces acting on phases situated at (or close to) the interface of other phases...
TRANSCRIPT
![Page 1: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/1.jpg)
1
Day 2. Interfacial forces
acting on phases situated at (or close to) the interface of other phases and driving them in space
A 4-day short course
George Kaptay
Kaptay / Day 2 / 1 See J96
![Page 2: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/2.jpg)
2
Interfacial energies Interfacial forces
Interfacial phenomena
Complex phenomena
Modeling algorithmKaptay / Day 2 / 2
![Page 3: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/3.jpg)
3
Deriving equations for interfacial forces
BA
BABAAG,
//
dx
xdGF x
)(,
BA
BABA
BA
BABAx dx
dA
dx
dAF
,
//
,
//,
x
A
B
Kaptay / Day 2 / 3
![Page 4: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/4.jpg)
4
The curvature induced interfacial force
dx
dAF BA
BAx/
/, A B
BAx xF /, 8
xA
FP BA
BA
xx
/
/
,,
2
For a spherical B:
The Laplace equation for spheres
Kaptay / Day 2 / 4
2/ 4 xA BA
![Page 5: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/5.jpg)
5
The general Laplace equation
Kaptay / Day 2 / 5
21/,
11
rrP BAx
xBA
For cylinders:
rP BA
x/
,
dx
dAF BA
BAx/
/, Generally:
For a cylinder: LxA BA 2/ LF BAx /, 2
xA
FP BA
BA
xx
/
/
,,
![Page 6: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/6.jpg)
6
Summary
The curvature induced interfacial force
The Laplace equation:
x
FF
F
FF
F
FF
phase 2phase 1 p2
p1
Kaptay / Day 2 / 6
21/,
11
rrP BAx
21 pp
rpp
221
In equilibrium:
P2:atmosphere + gravity +...
![Page 7: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/7.jpg)
7
Laplace Kelvin
The Laplace equation
The Gibbs energy change
rp
2
TSpVG
r rG
rV
rVG mm
2112
r
VGG mbulkibulki/
,,,,, 2
Kelvin equation (Day 1 / 17):
Kaptay / Day 2 / 7
![Page 8: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/8.jpg)
8
The interfacial gradient force (1)
xA B
dx
dAF BA
BAx/
/,
dx
dE
dE
d
dx
dx
dx
d
dx
dT
dT
d
dx
d BA
i
i
i
BABABA ////
Kaptay / Day 2 / 8
![Page 9: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/9.jpg)
9
dx
drkF BA
x/2
, 4
0
2
4
6
8
0 5 10 15 20 25 30rg , m
v, m
m/s
ML
KK
See J64Bubbles in a concentration gradient
Kaptay / Day 2 / 9
k=0.5 comes from fluid dynamics for bubbles moving in a C-gradient
Measured: Mukai and Lin
x
x
C
![Page 10: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/10.jpg)
10
See J101
Droplets moving in a T-gradient
Kaptay / Day 2 / 10
dx
dT
dT
dRF dLL
dxd /2,, 4
dx
dT
dx
dT
dm
md
2
3
Hadamard, Rybczinski:dm
mmddrag vRF
4
dx
dT
dT
dRv LL
dm
dm
dm
m
m
ddropeq
/, 322
6
Pötschke J., Rogge V., 1989:
![Page 11: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/11.jpg)
11
Can you produce monotectic alloys in space (g=0)?
Kaptay / Day 2 / 11
dx
dT
dT
dRv LL
dm
dm
dm
m
m
ddropeq
/, 322
6
radial cooling
Droplets do not sediment But they coalesce too quickly
NO Even
in space you can not.
Sorry..
![Page 12: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/12.jpg)
12
Interf. gradient force Marangoni force
dx
d gl /
dx
d gl /
Bubble movement Liquid convection
Kaptay / Day 2 / 12
![Page 13: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/13.jpg)
13
The interfacial capillary force (1)
For a solid particle at a liquid/gas interface:
x
1
23
3/23/13/13/232/12/1 )()( xAAxAG o
dx
xdA
dx
xdAF x
)()( 2/12/1
3/13/13/2,
dx
dA
dx
dAF glls
glx//
/, cos
Kaptay / Day 2 / 13
![Page 14: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/14.jpg)
14
The interfacial capillary force (2)
hrA ls 2/
dh
dA
dh
dA
AP glls
glc
//
/
cos
2/ rA gl
cos2 r
PcThe Young-
Laplace equation
solid
liquid
h
gas
Kaptay / Day 2 / 14
Wetting liquids penetrate into empty cylinders (see also Day 1 / 15)
![Page 15: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/15.jpg)
15
The interfacial capillary force (3)
x
dx
dA
dx
dAF glls
glx//
/, cos
2/ 2 xxrA gl xrA ls 2/
r
xrF glx cos12 /,
Kaptay / Day 2 / 15 See J23
![Page 16: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/16.jpg)
16
Particle equilibrium at interface
r
xrF glcglx ///, cos12
For a spherical particle of radius r:
)cos1( // glceq rx
xxF eqglx /, 2
equilibrium
Kaptay / Day 2 / 16 See J23
![Page 17: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/17.jpg)
17
s
l g
l g
s
ls
g
g
g
g
l
l
l
s
s
s
Xa.
b.
c.
Wettability versus particle position at interface
)cos1( rxeq
Kaptay / Day 2 / 17
![Page 18: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/18.jpg)
18
The interfacial capillary force in physical metallurgy
If solid particles (droplets) are dragged by the grain boundary, its movement is slowed down by the
particles (droplets) (the “Zenner force”) and its size stabilizes at a certain value of Req
time
Kaptay / Day 2 / 18
![Page 19: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/19.jpg)
19
ggx rF /max,, 2
r
xrF gsgggx ///, cos12
If the grains are identical: 0cos/
////
gg
sgsggsg
The maximum force at x = 2r:
Kaptay / Day 2 / 19
Equilibrium if: ggsggeq rnR // 28 3
3
r
Rn s
The equilibrium grain-size:
seq
rR
2
For better properties (low Req) precipitate many nano-particles
How to make nano-crystalline alloys?
![Page 20: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/20.jpg)
20
The condition of flat meniscus around a sphere (1)
flat** flat**
flat**
gl
gs
*Depends on the dimensionless density:
Kaptay / Day 2 / 20
![Page 21: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/21.jpg)
21
The condition of flat meniscus around a sphere (2)
)cos2()cos1(4
1* //
2// glcglcflat
The equilibrium condition for gravity + buoyancy forces, only:
flat** The two equals, if:
3
2
4
3*
r
xrx eqeq
gl
gs
The equilibrium condition for interfacial capillary force, only:
)cos1( rxeq
Kaptay / Day 2 / 21
![Page 22: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/22.jpg)
22
The interfacial meniscus force (1)
dx
dA
dx
dA
dx
dAF x
121/2/4
4/21/2/3
3/22/1, coscos
*)*(*)*()()(
32
81,44,33
2/1
43, flatflatx x
gmgmF
Kaptay / Day 2 / 22
Chan et al, 1980 (exact solution: Paunov et al, 1993)
![Page 23: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/23.jpg)
23
The interfacial meniscus force (2)
Flat meniscus no interfacial force
Kaptay / Day 2 / 23
![Page 24: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/24.jpg)
24
The interfacial meniscus force (3)
Similarly curved menisci attracting interfacial force
Kaptay / Day 2 / 24
![Page 25: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/25.jpg)
25
The interfacial meniscus force (4)
Oppositely curved menisci repulsing interfacial force
Kaptay / Day 2 / 25
![Page 26: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/26.jpg)
26
The liquid bridge induced interfacial force (1)
x
3 42
1
r3 r4
dx
dA
dx
dA
dx
dAF x
121/2/4
4/21/2/3
3/22/1, coscos
cos2 /max,, glx rF
Kaptay / Day 2 / 26
Valid at x 0, V 0, same as interfacial capillary force for cylinders (see Today, slide 14)
![Page 27: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/27.jpg)
27
The liquid bridge induced interfacial force (2)
-50
-40
-30
-20
-10
0
0 1 2 3
x, m
F x
, N
Kaptay
Naidich
(1/2 = 1 J/m2, 3/2/1 = 4/2/1 = 30o, V2/V3 = V2/V4 = 0.01,r = 10 m, Fmax = -54.4 N). )
Kaptay / Day 2 / 27
![Page 28: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/28.jpg)
28
The interfacial adhesion force (1)
mxd
dkF
)(
2
3
21x
Kaptay / Day 2 / 28
Phase 1 Phase 2 Position k m Plane of area A Plane of area A Parallel A2 3 Plane of area Sphere of radius r - r2 2
Sphere of radius r1 Sphere of radius r2 -
21
212rr
rr
2
Cylinder of radius r1 Cylinder of radius r2 Crossing under
sin
2 21 rr
2
![Page 29: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/29.jpg)
29
A simplified derivation
dx
dGF
3
x1 2
23231313 AAG
dx
d
dx
dAF 2313
AAA 2313
Kaptay / Day 2 / 29
![Page 30: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/30.jpg)
30
n
xd
dx
)()( 13121313
Boundary condition 1: If x : 13(x) 13, 23(x) 23
Boundary condition 2: If x 0: 13(x) 12, 23(x) 12
n
xd
dx
)()( 23122323
x separation
interfacial energy
13
23
12
0
13(x)
23(x)
Kaptay / Day 2 / 30
ij = f (interface separation)
![Page 31: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/31.jpg)
31
Substituting….
dx
d
dx
dAF 2313
n
xd
dx
)()( 13121313 n
xd
dx
)()( 23122323
1231312 )()2(
n
n
xd
dAnF
2n2313122
3
2
)(2
xd
dAF
Literature
Kaptay / Day 2 / 31 See J24
![Page 32: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/32.jpg)
32
Summary
Hamaker, 1937:
Neumann, 1973:
Kaptay, 1996: 2313122
1312
231312
1
3
21
3
1
132
13
132
Kaptay / Day 2 / 32
See J24
![Page 33: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/33.jpg)
33
Conclusions
Equations have been obtained for the interfacial forces:
The “curvature induced interfacial force” (Laplace)
The “interfacial gradient force” (Marangoni)
The “interfacial capillary force” (Young-Laplace, Carman, Zener)
The “interfacial meniscus force” (Nicolson, Denkov, White)
The “liquid bridge induced interfacial force” (Naidich)
The “interfacial adhesion force” (Derjaguin, Hamaker)
Kaptay / Day 2 / 33
![Page 34: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/34.jpg)
34
Conditions for the trial calculations
Liquid: steel at 1600 oC, l/g = 1.7 J/m2, 1 = 7000 kg/m3 Solid particle: Al2O3, r = 10 m, s/g = 0.9 J/m2, s = 3600 kg/m3, m = 1.5.10-11 kg, Fg = m.g = 1,5.10-10 N. Contact angle: 120o. From the Young equation: s/l = 1.75 J/m2, Derivatives by T and weight % of oxygen, dissolved in liquid steel: dc/l/dT = –2.10-4 J/Km2 and dc/l/dCO = –10 J/m2w%. Temperature gradient: dT/dx = 10K/mmGradient of the oxygen concentration: dCO/dx = 0.01 w%/mm For capillary force, the depth of immersion: x = 20mFor meniscus force between two, equal particles: x = 10 m. From the densities: * = 0.51, flat* = 0.16, i.e. (* - flat*) = 0.35. For the liquid bridge induced interfacial force we suppose that the particles are in contact (x = 0), the volume of liquid is negligible.
Kaptay / Day 2 / 34
![Page 35: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/35.jpg)
35
The curvature induced interfacial force
BAx xF /, 8
-4.4.10-4 N >> gravity force
x
FF
F
FF
F
FF
phase 2phase 1 p2
p1
Kaptay / Day 2 / 35
![Page 36: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/36.jpg)
36
The interfacial gradient force
xA B dx
dAF BA
BAx/
/,
i
i
i
BABABA
dx
dx
dx
d
dx
dT
dT
d
dx
d ///
T-induced: 2.5.10-9 N > gravity force
O-concentration induced: 1.3.10-7 N >> gravity
Kaptay / Day 2 / 36
![Page 37: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/37.jpg)
37
The interfacial capillary force
r
xrF glcglx ///, cos12
F = -1.6.10-4 N >> gravity force
Kaptay / Day 2 / 37
![Page 38: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/38.jpg)
38
The interfacial meniscus force
*)*(*)*()()(
32
81,44,33
2/1
43, flatflatx x
gmgmF
F = -1.3.10-16 N << gravity force
(but perpendicular to gravity)
Kaptay / Day 2 / 38
![Page 39: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/39.jpg)
39
The liquid bridge induced interfacial force (1)
x
3 42
1
r3 r4
cos2 /max,, glx rF
F = 5.3.10-5 N >> gravity force
Kaptay / Day 2 / 39
![Page 40: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/40.jpg)
40
The interfacial adhesion force
mxd
dkF
)(
2
3
21x
2313122
F = 1.1.10-4 N (x = 0) >> gravity force
F = 1.10-12 N (x = 1 micron) < gravity force
Kaptay / Day 2 / 40
![Page 41: 1 Day 2. Interfacial forces acting on phases situated at (or close to) the interface of other phases and driving them in space A 4-day short course George](https://reader035.vdocument.in/reader035/viewer/2022062716/56649de65503460f94adf4a6/html5/thumbnails/41.jpg)
41
Thank you for your attention
so far
If not too tired, please, come again
(tomorrow morning…)