web course physical properties of glass 1. …inimif/teched/glassprop/slides/...stebbins model for...
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FS08 Richard K. [email protected] Melt properties-1
Web CourseWeb CoursePhysical Properties of GlassPhysical Properties of Glass
1. Properties of Glass Melts1. Properties of Glass Melts2. Thermal Properties of Glasses2. Thermal Properties of Glasses
Richard K. BrowMissouri University of Science & Technology
Department ofMaterials Science & Engineering
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FS08 Richard K. [email protected] Melt properties-2
Melt and Glass Properties• Viscosity- chapter 9• Surface Tension- chapter 9• Thermal Expansion- chapter 10• Heat Capacity- chapter 11• Thermal Conductivity- chapter 12
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FS08 Richard K. [email protected] Melt properties-3
Supplementary References on Viscosity
• Structure, Dynamics and Properties of Silicate Melts, Reviews in Mineralogy, Vol. 32 (1995), ed. JF Stebbins, PF McMillan and DB Dingwell(Mineralogical Society of America)- several outstanding reviews of viscosity, relaxation, etc.
• CA Angell, Science, 267, (1995), 1924- concepts of melt fragility, configurational entropy, etc.
• JH Simmons and C Simmons, Cer Bull 68[11] 1949 (1989)- Non-Newtonian behavior
• HE Hagy in Introduction to Glass Science, ed. LD Pye, et al Plenum Press (1972)- nice review of viscosity measurements
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FS08 Richard K. [email protected] Melt properties-4
Why should we care about melt viscosity?
1. Glass Forming Tendencya. Nucleation, crystallization, phase separation kinetics
2. Melt Fining
3. Manufacturing Process Control
4. Annealing Schedules/Permanent Stress
5. What else??
ηρρ
12)(:LawsStoke'
2lbgdV −
=
⎥⎦
⎤⎢⎣
⎡
Δ⋅⋅−
⎟⎟⎠
⎞⎜⎜⎝
⎛
⋅⋅⋅
= 2
3
30
0 exp3 v
VHO
V GTK
aTkNI σ
ηπ
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FS08 Richard K. [email protected] Melt properties-5
A
d
F,VNewtonian Liquids:
•==≡ε
ση 0Viscosity AVFd Sh
ear
stre
ss (σ
)
Time
σ0
Time
Stra
in (ε
)η
σε 0=•
Viscosity Definitions
Units: (dynes·cm)/(cm2·(cm/s))= dyne·s/cm2 = Poise or
N·s/m2 = Pa·s1 Pa·s = 10 P1 P = 1 dPa·s
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FS08 Richard K. [email protected] Melt properties-7
Elastic Solid Newtonian Liquid
Viscoelastic transition
glass forming
melting
η(T) for SLS melt
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FS08 Richard K. [email protected] Melt properties-8
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FS08 Richard K. [email protected] Melt properties-9
Important Manufacturing Viscosities
Internal stresses relieved <15 hrs1013.5Strain pt (Tsp)Internal stresses relieved <15 min1012Annealing pt (Tap)
1011-1012Glass transition (Tg)
Dilatometric: expansion compensated by viscous flow
1010-1011Deformation temp (Td)No crystallization for T<Tx~107Crystallization temp (Tx)Littleton, flow under own weight106.6Softening point (TLit)
104Flow pointNo crystallization for T>Tl~104Liquidus temp (Tl)Forming102-106Working range
103Working pt (Tw)Melting, fining100.5-101.5Melting range
101Melting pt (Tm)Remarksη (Pa·s)Name
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FS08 Richard K. [email protected] Melt properties-10
1014.5
1013
107.6
104
log P
1013.5Strain Pt
1012Annealing Pt
106.6LittletonSoftening Pt
103Working Pt
log Pa·s
Defined Viscosities
Workingrange
AnnealingRange
η(T) for SLS melt
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FS08 Richard K. [email protected] Melt properties-11
Viscosity Classifications• Working Range: Temperatures (ΔT) between ‘working
point’ and ‘softening point’– Long glasses: large ΔT (shallow η(T) curves)– Short glasses: small ΔT (steep η(T) curves)– Hard glasses: Working range at greater temperatures
than for S-L-S glass• Borosilicates, aluminosilicates, oxynitrides, silica, etc.• Sometimes defined as CTE<6x10-6/°C
– Soft glasses: Working range at lower temperatures than for S-L-S glass
• Soda-lime silicate, Pb-silicates• Sometimes defined as CTE>6x10-6/°C
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FS08 Richard K. [email protected] Melt properties-12
Corning Codes:8363: High PbO radiation
shield0010: Pb-silicate tube7070: Borosilicate0080: SLS lamp glass7740: Pyrex1720: Alkaline-earth boro-
aluminosilicate
From Seward and Varshneya (2001)
Soft glasses Hard glasses
Shortglass
Long glass
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FS08 Richard K. [email protected] Melt properties-13
Measurement of Viscosity
Range Method Viscosity Values
Melting Falling Sphere/Bubble Rise η<104 Pa-sMargules Rotating Cylinder η<106 Pa-s
Parallel Plate 105 Pa-s<η< 109 Pa-sSoftening Penetration Viscometer 105 Pa-s<η< 109 Pa-s
and Fiber Elongation 105 Pa-s<η< 1015.5 Pa-sAnnealing Beam Bending 107 Pa-s<η< 1012 Pa-s
Disappearance of Stress 1011 Pa-s<η< 1014 Pa-s
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FS08 Richard K. [email protected] Melt properties-14
Rotating Spindle: 10-106 Pa·s(ASTM C965-96)
⎟⎠⎞
⎜⎝⎛ Τ
⎟⎠⎞
⎜⎝⎛ −
⋅=
ωπη 22
114
1RrL
rR
L
Τ = torqueω = rotational velocity
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FS08 Richard K. [email protected] Melt properties-152/25/03
Littleton Softening Point: 106.6 Pa·s(fiber elongation- ASTM C338-93)
( )dtdLAFL
/3 ⋅⋅
=η Applied Stress= F/AElongation rate=dL/dt
Balance of gravitational force (density) and surface tension
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FS08 Richard K. [email protected] Melt properties-162/25/03
Annealing/Strain Points: 1012, 1013.5 Pa·s(fiber elongation: ASTM-C336-69)
dL/dt = 2.5x10-6 l/d2
at 1012 Pa·s (anneal pt)Strain pt elongation rate is
0.0316 x annealing pt elongation rate (1.5 log units)
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FS08 Richard K. [email protected] Melt properties-172/25/03
Beam Bending: 108-1013 Pa-s
⎟⎠⎞
⎜⎝⎛ ⋅⋅+
⋅⋅
=6.14.2
3 ρη LAMVI
Lg
c
V=deflection rate
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FS08 Richard K. [email protected] Melt properties-18
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FS08 Richard K. [email protected] Melt properties-19
The temperature dependence of viscosityThe temperature dependence of viscosity
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FS08 Richard K. [email protected] Melt properties-20
hole
σyx
x
y
vAx
vBx
vCx
layer
A
B
C
Consider the ‘activated’ motion of a hole under the action of a shearing stress
velocitygradient
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FS08 Richard K. [email protected] Melt properties-21
σyx
ΔG0
2a
yxVσ
2a
yxVσ
Pot
entia
l ene
rgy
Jump frequency (υ0), no shear:• Same l-r as r-l• Depends on barrier energy and
probability of finding suitable hole as neighbor (Ph)
ΔG0
hBB PTkGhTk ⋅Δ−= ]/exp[]/[ 00υ
Applied shear biases potential energy function• Va is atom volume• Forward jump frequency (υ+) exceeds
reverse (υ-)
]2/exp[
]/)2
(exp[]/[
]2/exp[
]/)2
(exp[]/[
0
0
0
0
TkV
PTkV
GhTk
TkV
PTkV
GhTk
Bayx
hBayx
B
Bayx
hBayx
B
συυ
συ
συυ
συ
−=
⋅+Δ−=
=
⋅−Δ−=
−
−
+
+
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FS08 Richard K. [email protected] Melt properties-22
σyx
2a
yxVσ
2a
yxVσ
ΔG0
The net ‘forward velocity’ is
( ) ( )( ) ( )
[ ] [ ][ ]( ) 100
00
/exp(///
,/
/)2/sinh(2///
−
−+−+
−+
Δ==
∂∂=
≅=∂∂−≈−=∂∂
−=−
hBaBayxyx
xy
BayxBayx
AxBx
PTkGVhTkV
yveisratestrainshear
TkVTkVyvyxyvxvv
συση
συσυυυδδυυ
δυυ
&
Consider the energy required to create a hole (ΔEh), then Ph can be described by
[ ]
[ ] ( )[ ]
( )RTH
TkEGVh
TkEP
Bha
Bhh
/exp
/exp/
/exp
0
0
ηηη
η
Δ=
Δ+Δ=
Δ−=substituting Ph into the viscosity equation,
Simplifying as an Arrhenius equation:
Pot
entia
l ene
rgy
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FS08 Richard K. [email protected] Melt properties-23
From P. Richet and Y. Bottinga, in Reviews in Mineralogy, Vol. 32, (1995), p. 67-93
2000°C 1000°C 500°C1500°C
Most glassMost glass--forming liquids are nonforming liquids are non--ArrheniusArrhenius
SiO2
Ab
An
Di
NTS2
NS3
NS2
Ab=albiteAn=anorthiteDi=diopside
0
logTT
BA−
+=η
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FS08 Richard K. [email protected] Melt properties-24
From C. A. Angell, Science, 267, (1995), 1924.
MeltMeltFragilityFragility
Fragile
Strong
Tg/T
Log
(vis
cosi
ty in
poi
se)
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FS08 Richard K. [email protected] Melt properties-25
Why the non-Arrhenius temperature-dependence?
1. Energy for hole formation (ΔEh) is low at high temperatures
ΔHη is greater at lower temperatures2. Free-volume increases with temperature3. Configurational entropy increases with temperature
(Adam-Gibbs description)
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FS08 Richard K. [email protected] Melt properties-26
What accounts for viscous flow in a silicate melt?
What has to happen for flow to occur?
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FS08 Richard K. [email protected] Melt properties-27
What happens at the molecularWhat happens at the molecular--level that affects viscosity? level that affects viscosity?
At the short timescales, ‘melt structures’ are similar to ‘glass structures’….
• Raman spectroscopy- probing structure on timescales 10-12-10-14 s • Si-O stretching/bending modes remain dominate from room temperature into the melt • Some evidence for some melt speciation reactions: 2Q3 ↔ Q2 + Q4
Q2
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FS08 Richard K. [email protected] Melt properties-28
NMR provides structural information about glassesNMR provides structural information about glasses
Q4Q3
Q2Q1
Q4 Q3 Q2 Q1 Q0
xLi2O (1-x)SiO2
ni
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FS08 Richard K. [email protected] Melt properties-29
Chemical exchange in melts: silicate species
and viscous flow
• NMR exchange frequencies (kHz range) are comparable to the timescales for viscous flow in silicate melts
• The ‘lifetimes’ for Si-O bonds in a melt can be determined and compared with timescales associated with viscous flow
• At high temperatures, the Q3-Q4 exchange (Si-O bond rupture) is fast compared to the experimental time frame.
Experimental Simulated Spectra
697°C
774°C
800°C
847°C
997°C
2 kHz
10 kHz
25 kHz
50 kHz
500 kHz
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FS08 Richard K. [email protected] Melt properties-30
NMR exchange and viscosity timescales coincideNMR exchange and viscosity timescales coincide
1. Maxwell relationship: η = τshear · G∞2. Assume that τshear ≈ τex3. Calculate diffusivity (D) from τex : D =d2/6τ, d is ‘jump distance’4. Calculate viscosity from η = kBT/(dD)
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FS08 Richard K. [email protected] Melt properties-31
Stebbins model for viscous flowStebbins model for viscous flowSi-O bond-rupture through Q3-Q4
site exchange• Conversion of one bridging
oxygen to a nonbridging oxygen• ‘Diffusion’ of modifying cation
from one silicate unit to another
• Creation of an SiO5 transitional site?
Pot
entia
l ene
rgy
?
initial
final
initial
final
transitionaltransitional
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FS08 Richard K. [email protected] Melt properties-32
NMR evidence for NMR evidence for transitional sites transitional sites ‘‘frozen intofrozen into’’ quenched quenched glass structuresglass structures
Na2Si4O9
Cs2Si4O9
Fastquench
Slowquench
Q3/Q4 peak
SiO5
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FS08 Richard K. [email protected] Melt properties-33
Effects of composition on viscosity
Viscosity is determined by• Molecular attractive forces, especially
associated with glass-forming oxides– Si-O vs. Ge-O
• Number of non-bridging oxygens in structure– Alkali oxide additions reduce viscosity– Water (-OH) and fluorine reduce
viscosity• Coordination number of the cation
B[3] vs B[4]
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FS08 Richard K. [email protected] Melt properties-34
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FS08 Richard K. [email protected] Melt properties-35
⎯ O⎯Si ⎯ O ⎯ Si ⎯O ⎯ +R2O →⏐O⏐
⏐O⏐
⏐O⏐
⏐O⏐
⎯ O⎯Si ⎯ O- -O ⎯ Si ⎯O ⎯⏐O⏐
⏐O⏐
⏐O⏐
⏐O⏐
R+
R+
B0 +R2O → 2NBO2Q4 + R2O → 2Q3
Reminder: Effect of Modifier Additions on Reminder: Effect of Modifier Additions on Silicate Glass NetworksSilicate Glass Networks
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FS08 Richard K. [email protected] Melt properties-36
Na-K-Zn-Al-silicate(Wu, JNCS, 41 381, 1980)
Increasing the modifier Increasing the modifier content reduces viscositycontent reduces viscosity
• Water is a particularly effective flux
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FS08 Richard K. [email protected] Melt properties-37
The effect of water on Tg(η≈1012 Pa·s) of silicate glasses
Deubener, et al., JNCS 330, 268 (2003).
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FS08 Richard K. [email protected] Melt properties-38
The effects of modifier The effects of modifier content on melt viscositycontent on melt viscosity
H. Rawson, Properties and Applications of Glass, Elsevier, 1980.
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FS08 Richard K. [email protected] Melt properties-39
Log η (Poise)8
10
12
16
Isokom temperatures for mixed alkali meltsIsokom temperatures for mixed alkali melts
Nemilov (1969)
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FS08 Richard K. [email protected] Melt properties-40
⎯ O⎯Si ⎯ O- -O ⎯ Si ⎯O ⎯⏐O⏐
⏐O⏐
⏐O⏐
⏐O⏐
R+
R+
⎯ O⎯Si ⎯ O ⎯ Al ⎯O ⎯ Si ⎯O ⎯⏐O⏐
⏐O⏐
⏐O⏐
⏐O⏐
R+
⏐O⏐
⏐O⏐
1/2Al2O3 for
1/2R2O
Reminder: Effect of Alumina Additions on Silicate Glass Reminder: Effect of Alumina Additions on Silicate Glass NetworksNetworks
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FS08 Richard K. [email protected] Melt properties-41
Viscosity of alkali alumino-silicate melts is greatest when Al/Na≈1- fully cross-linked networks….
Toplis et al., Geochim. Cosmochim. Acta.61[13] 2605 (1995)
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FS08 Richard K. [email protected] Melt properties-42
B— O
— O
R+
O —
O —+1/2R2O
[O]/[B]=1.5
[O]/[B]=2.0
+1/2R2O
B — O —— O
— O
[O]/[B]=2.5
B — O —
R+ -O
R+ -O
+1/2R2O
B — O- R+R+ -O
R+ -O
[O]/[B]=3.0
Reminder: Effect of Alkali Addition on Borate Glass NetworksReminder: Effect of Alkali Addition on Borate Glass Networks
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FS08 Richard K. [email protected] Melt properties-43
Alkali borate melt viscosity2BØ3 + Na2O → 2(BØ4
-Na+)
Note the loss of the ‘borate anomaly’ effect at high temperatures (low viscosity)
2(BØ4-·Na+) + Na2O → 2(BØO2
2-·2Na+)
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FS08 Richard K. [email protected] Melt properties-44
38.6Li2O·61.4B2O3 glass and melt
Cormier et al., JACerS, 89 13 (2006)
Raman spectra indicate that the BØ2O- triangles replace BØ4
-
tetrahedra in the melt
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FS08 Richard K. [email protected] Melt properties-45
Cormier et al., JACerS, 89 13 (2006)
Raman spectra indicate that the BØ2O- triangles replace BØ4
- tetrahedra in the melt
BØ4-Li+ ↔ BØ2O-Li+
Note that B-O bonds are broken, and that such configurational changes will contribute to changes in heat capacity….
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FS08 Richard K. [email protected] Melt properties-46
Effects of composition on viscosity
-+-++-
Low Temp
SofterShorterSofterHarderShorterSofter
---+--
Alkali oxideAlkaline earthsPbOAl2O3
B2O3
OH-/F-
High Temp
GlassEffect on ViscosityComponent
Modifications to soda-lime silicate melt viscosity, after Beerkens, 1997.
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FS08 Richard K. [email protected] Melt properties-47
Viscosity dependence on temperature and composition• Vogel-Fulcher-Tamman (VFT) Equation
• Lakatos Method*: empirical additivity factors 0
logTT
BA−
+=η
∑∑∑
⋅+=
⋅+=
⋅+−=
ii
ii
ii
ptT
pbB
paA
1.198
4.5736
4550.2
0
For S-L-S melts, T (°C) and η (Pa·s), pi (mole fraction oxide per mole SiO2)
*T. Lakatos, et al., Glass Technology, 13 88 (1972)
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FS08 Richard K. [email protected] Melt properties-48
-25.07-321.0-384.0+544.3+521.4+294.4-275.5
-6039.7-1439.6+6285.3-3919.3+7272.1+2253.4-5880.0
+1.4788-0.8350-5.4936-1.6030-15.880+1.5183+1.3058
Na2OK2OMgOCaOB2O3
Al2O3
PbO
tibiai
Lakatos additivity parameters (after Beerkens, 1997)
Valid for the log(viscosity) range 1-12 Pa·s
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FS08 Richard K. [email protected] Melt properties-49
Shear Rate
Shea
r St
ress
(σ)
Newtonian (constant η)
Dilatant (increasing η)
Pseudoplastic (decreasing η)
Bingham Plastic
Not all liquids exhibit Newtonian viscosity behaviorNot all liquids exhibit Newtonian viscosity behavior
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FS08 Richard K. [email protected] Melt properties-50
NonNon--Newtonian ViscosityNewtonian Viscosity
Yue & BrücknerGlastech. Ber (1996)
Shear thinning-decreasing effective viscosity with increasing deformation rates• fiber drawing• press-and-blow
Greater problem at higher temperatures
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FS08 Richard K. [email protected] Melt properties-51
[ ]∞+= σηηη /)(1/1/ 00 xye&
NonNon--Newtonian ViscosityNewtonian Viscosity
η0 is Newtonian viscosityσ∞ is the cohesive shear strength
Simmons and Simmons, Cer Bull68[11] 1949 (1989)
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FS08 Richard K. [email protected] Melt properties-52
Cohesive strength increases with viscosityCohesive strength increases with viscosity
•Viscosity becomes nonlinear at high shearing rates•Shear stress builds up if stress relaxation rate is sufficiently low•If shear stress>σ∞, then ‘liquid fracture’ can occur
Simmons and Simmons, Cer Bull68[11] 1949 (1989)
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FS08 Richard K. [email protected] Melt properties-53
Consequences of Non-Newtonian Viscosity
• High-speed glass processing– Fiber attenuation– Container processing
• Source for glass inhomogeneities– Induced phase separation or crystallization in high
shear regions
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FS08 Richard K. [email protected] Melt properties-54
• Fibers heated below Tx• Stress in ‘bent’ regions
reduces ‘effective’ viscosity• Examine differences in
crystallization behavior
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FS08 Richard K. [email protected] Melt properties-55
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FS08 Richard K. [email protected] Melt properties-56
Another example• Melts prepared in micro-gravity have
greater glass-forming tendencies than melts on earth at comparable quench rates– Hypothesis*: gravity-driven fluid-flow
increases overall strain rate within melt• Reduced ‘local’ viscosity through shear thinning• Increased ‘local’ crystallization rates
*CS Ray et al, Trans. Indian Inst. Met. 60[2] 143 (2007)
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FS08 Richard K. [email protected] Melt properties-57
Trans. Indian Inst. Met. 60[2] 143 (2007)
Normalized acceleration due to gravity
Wal
l she
ar s
tress
(Pa)
Max
imum
stra
in ra
te (s
-1)
Calculated for LS2 melts at 1400°C and a 5°C temperature gradient
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FS08 Richard K. [email protected] Melt properties-58
Normalized acceleration due to gravity
Shear-thinning behavior is reduced when gravitational effects are reduced.
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FS08 Richard K. [email protected] Melt properties-59
From J. H. Simmons, in Experimental Techniques of Glass Science, (1993), p. 383-432.
Phase separation affects viscosity
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FS08 Richard K. [email protected] Melt properties-60
From H. E. Hagy, in Introduction to Glass Science, (1972), p. 343-371
Crystallization affects viscosity
• Example: crystallizable sealing glass
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FS08 Richard K. [email protected] Melt properties-61
Viscosity SummaryViscosity Summary• Viscosity is the most important melt property
– Critical for processing, from melting through annealing• Compositional dependence can be understood in terms
of melt/glass structure– Stronger networks = greater viscosity
• Fraction of NBO’s on silicate tetrahedra• Aluminosilicate networks• Borate ‘anomaly’- tetrahedral sites
– Viscosity is sensitive to changes in melt structure• Temperature dependence is non-Arrhenian
– VFT equation is a useful empirical description– Fragile/strong classification can be related to configurational
changes• Shear-thinning has processing consequences
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FS08 Richard K. [email protected] Melt properties-62
Glass formation is Glass formation is ‘‘crystallization avoidancecrystallization avoidance’’
( ) ( )4/32 3.0exp1212.0exp
770 ⎥⎦
⎤⎢⎣
⎡⎟⎟⎠
⎞⎜⎜⎝
⎛ Δ−−⋅−⋅≈
•
mm
mc
RTHB
T.at ATT
η
Kineticbarrier
Nucleationbarrier
Free energydriving force
Reduce critical cooling rateto improve glass formation
• Lower Tm• Increase η at TmIf Tg (η=1013 P) is near Tm,
then η(Tm) will be high
Glass formation expected when Tg/Tm>2/3 0.071535Fe
0.03420Zn0.02 P613LiCl107 P1710SiO2
107 P1150GeO2
105 P460B2O3
>106 P540BeF2
η(Tm)Tm(°C)
Poorglass
formers
Goodglass
formers
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FS08 Richard K. [email protected] Melt properties-63
Eutectic compositions are good glassEutectic compositions are good glass--formersformersW. Vogel, Chemistry of Glass, 1985
T g(°
C)
Mole% Na2O
From Dingwell in Rev. Mineral.32 (1995)
Tg/Tliq is a maximum (~0.7) at the eutectic
G=U-1
ΔTg~30°C
ΔTliq~800°C