in-situ observation of zno containing cu slag solidification by confocal laser scanning microscope...
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![Page 1: In-situ observation of ZnO containing Cu slag solidification by confocal laser scanning microscope S.G. Huang*, M.X. Guo*, Y. Pontikes*, J. Van Dyck*,](https://reader035.vdocuments.net/reader035/viewer/2022062421/56649d9f5503460f94a89e8e/html5/thumbnails/1.jpg)
In-situ observation of ZnO containing Cu slag solidificationby confocal laser scanning microscope
S.G. Huang*, M.X. Guo*, Y. Pontikes*, J. Van Dyck*, C. Mathias**, P.T. Jones*, B. Blanpain*
*Department of Metallurgy and Materials Engineering, KU Leuven, Kasteelpark Arenberg 44, B-3001 Heverlee, Belgium** Metallo-chimique N.V. 2340 Beerse, Belgium
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Goal
To observe the crystallization of primary phases in a molten Cu slag in situ by confocal laser scanning microscope (CLSM) method.
To construct a CCT diagram of the Cu slag was using Pt foil as crucible.
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Slag solidification
Big slag pot
What is the crystal combination of slag under different cooling rate?
Introduction
Steel plate
Water granulation
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Experimental
Material:
Cu slag: 57 FeO, 26 SiO2, 6 ZnO, 3 Al2O3 and 2 CaO (wt%)
Minerals: 73 wt% amorphous + 24 wt% fayalite + balanced spinel.
Methods:
confocal scanning laser microscope (CSLM, Lasertec, 1LM21H-SVF17SP, Japan).
The slag sample was either heated in an Al2O3 crucible or a thin Pt foil at a rate of 200 oC/min to 1250 oC and dwelled for 3 min in Ar to homogenize its composition. After that, the slag was cooled down to 500 oC at a rate of 30 to 2400 oC/min.
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CLSM (Confocal laser scanning microscopy) set-up
1250°C,3min
100°
C/m
in
slag
Crucible
Pt plateand TC
Slag
Pt sheet
Pt plate
Pt sheet
CSLM setup
Al2O3 crucible
Pt foil
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• Good wetting of slag with the Al2O3 crucible• Chemical reaction of Al2O3 and slag• Unstable liquid surface• Inhomogeneous cooling
Al2O3 crucible
Continuous cooling in an Al2O3 crucible
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Elemental mappingAl-Zn-Fe-O Spinel formationChange of solidification behavior
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Continuous cooling tests
300 600 900 1200 1500 1800700
800
900
1000
1100
1200
1300
20 oC/s
15 oC/s
10 oC/s
5.0 oC/s
5.0 oC/s
2.0 oC/s
1.0 oC/s
0.5 oC/s
Te
mp
era
ture
(o
C)
Time (s)
Dendritic structure precipitation temperature
0 5 10 15 20 25 30 35 40 45980
1000
1020
1040
1060
1080
1100
1120
1140
Pre
cip
itatio
n T
em
p.
(o C)
Cooling rate (oC/s)
Continuous cooling in a Pt foil
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In-situ observation, 1°C/s
1119°C 1114°C 1100°C
1070°C1050°C
1080°C
1030°C1000°C
1200-1114 °C liquid 11114-1050°C: fayalite + liquid 1+ liquid 21050-RT: fayalite+liquid 2deltaT=94°CAll the fayalite precipitate at 1050°C
Liquid 1 liquid 1+Fayalite
liquid 2+Fayalite
Continuous cooling in a Pt foil
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CCT diagram of Cu slag
At a cooling rate of 40°C/s, FA crystal is formedCritical cooling rate need to be larger than 40°C/s
10 100 1000600
700
800
900
1000
1100
1200
1300
80oC/s?
60oC/s?
FA+Liquid 2
Liqud+FA
Liqud
Solidus960oC
Liqudis1200oC
0.5oC/s
1oC/s
1.7oC/s
5.7oC/s
12.2oC/s
22.7oC/s
40oC/sTem
pera
ture
(o C
)
Log10
(Time/s)
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Conclusions:
The Al2O3 crucible is not ideal for the high temperature experiments due to the moving liquid slag surface and the slag/Al2O3 reaction as well as inhomogeneous temperature distribution.
The Pt foil is able to in-situ observe the slag solidification behavior at different cooling rates. The onset temperature is decreased continuously with the increased cooling rate. A cooling rate higher than 2400
oC /min is however needed to make a full amorphous slag.