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jeudi 28 novembre 2013
lundi 4 novembre 2013
SUBSTITUTIONS
FOR
POTASSIUM
FELDSPARS
USING
CUSTER SPAR
AS
AN EXAMPLE
PROPOSITION “A”
If a slight increase in the vicinity of 4% of the alumina portion
of the
molecular formula of a glaze is acceptable then Custer spar could
be
substituted for by Nepheline/Syenite in the following manner.
I .
SUBSTITUTION FOR CUSTER FELDSPAR BY
NEPHELINE/SYENITE, SILICA
FIGURE # 1 CUSTER FELDSPAR
KNAO
|
AL2O3
|
SIO2
|
||||||||||||||||
1
|
1.05
|
7.05
|
||||||||||||||||
NEPHELINE/
|
X1
|
1
|
1.11
|
4.65
|
||||||||||||||
SYENITE
|
X
|
2.40
|
||||||||||||||||
SILICA
|
X2.4
|
7.05
|
||||||||||||||||
X
|
||||||||||||||||||
NEPHELINE/
|
||||||||||||||||||
SYENITE
|
1
|
X
|
462
|
=
|
462
|
¸
|
6.06
|
=
|
76.238
|
¸
|
100
|
=
|
0.762
|
|||||
SILICA
|
2.4
|
X
|
60
|
=
|
144
|
¸
|
6.06
|
=
|
23.762
|
¸
|
100
|
=
|
0.238
|
|||||
606
|
100.000
|
1.000
|
||||||||||||||||
FIGURE #2 LEACH WHITE
C/8 – 10R
CUSTER
|
40.00 %
|
|
WHITING
|
20.00 %
|
|
E.P. KAOLIN
|
10.00 %
|
|
SILICA
|
30.00 %
|
|
100.00 %
|
||
ZIRCOPAX
|
10.00 %
|
K2O
|
.170
|
AL2O3
|
.404
|
SIO2
|
3.909
|
||||
NA2O
|
.075
|
||||||||
CAO
|
.755
|
FIGURE #3 LEACH WHITE (SUBSTITUTION)
NEPHELINE/SYENITE
|
40 X .762
|
30.48 %
|
||
SILICA
|
40 X .238
|
9.52 %
|
||
WHITING
|
20.00 %
|
|||
E.P. KAOLIN
|
10.00 %
|
|||
SILICA
|
30.00 %
|
|||
100.00 %
|
K2O
|
.060
|
AL2O3
|
.423
|
SIO2
|
3.940
|
||||
NA2O
|
.185
|
(+4.7 %)
|
(+0.79%)
|
||||||
CAO
|
.755
|
FIGURE #4 TRANSPARENT
C/8 – 10R
CUSTER
|
43.50 %
|
|
SILICA
|
28.10 %
|
|
E.P. KAOLIN
|
10.30 %
|
|
WHITING
|
18.10 %
|
|
100.00 %
|
K2O
|
.194
|
AL2O3
|
.456
|
SIO2
|
4.163
|
||||
NA2O
|
.087
|
||||||||
CAO
|
.718
|
FIGURE #5 TRANSPARENT (SUBSTITUTION)
NEPHELINE/SYENITE
|
43.5 X .762
|
33.15 %
|
||
SILICA
|
43.5 X .238
|
10.35 %
|
||
SILICA
|
28.10 %
|
|||
E. P. KAOLIN
|
10.30 %
|
|||
WHITING
|
18.10 %
|
|||
100.00 %
|
K2O
|
.071
|
AL2O3
|
.474
|
SIO2
|
4.174
|
||||
NA2O
|
.213
|
(+3.9%)
|
(+.26%)
|
||||||
CAO
|
.715
|
FIGURE #6 YAC #1
C/8 – 10R
CUSTER
|
56.80 %
|
|
DOLOMITE
|
13.60 %
|
|
WHITING
|
10.60 %
|
|
ZINC OXIDE
|
3.00 %
|
|
E.P. KAOLIN
|
16.00 %
|
|
100.00 %
|
||
RUTILE
|
2.00 %
|
|
RED IRON OXIDE
|
3.00 %
|
K2O
|
.164
|
AL2O3
|
.415
|
SIO2
|
2.018
|
||||
NA2O
|
.076
|
||||||||
CAO
|
.470
|
||||||||
MGO
|
.193
|
||||||||
ZNO
|
.097
|
FIGURE #7 YAC # 1 (SUBSTITUTION)
NEPHELINE/SYENITE
|
56.8 X .762
|
43.28 %
|
||
SILICA
|
56.8 X .238
|
13.52 %
|
||
DOLOMITE
|
13.60 %
|
|||
WHITING
|
10.60 %
|
|||
ZINC OXIDE
|
3.00 %
|
|||
E. P. KAOLIN
|
16.00 %
|
|||
100.00 %
|
K2O
|
.060
|
AL2O3
|
.432
|
SIO2
|
2.047
|
||||
NA2O
|
.182
|
(+4.1%)
|
(+1.4%)
|
||||||
CAO
|
.469
|
||||||||
MGO
|
.193
|
||||||||
ZNO
|
.096
|
The proposed proportion is : 0.762 Nepheline/Syenite
0.238
Silica for 1%
Custer Feldspar
PROPOSITION “B”
If the small increase in the amount of alumina is not acceptable
we submit a new proposition in which the KNAO portion is decreased and the
other fluxes increased while the silica and alumina portions are kept at their
original levels.
II. SUBSTITUTION FOR CUSTER FELDSPAR BY
NEPHELINE/SYENITE, SILICA
FIGURE # 1 CUSTER FELDSPAR
KNAO
|
AL2O3
|
SIO2
|
|||||||||||||||
1
|
1.05
|
7.05
|
|||||||||||||||
NEPHELINE/
|
X.946
|
.946
|
1.05
|
4.399
|
|||||||||||||
SYENITE
|
.054
|
X
|
2.651
|
||||||||||||||
SILICA
|
X2.651
|
7.05
|
|||||||||||||||
X
|
|||||||||||||||||
NEPHELINE/
|
|||||||||||||||||
SYENITE
|
.946
|
X
|
462
|
=
|
437.052
|
¸
|
5.96
|
=
|
73.33
|
¸
|
100
|
=
|
0.733
|
||||
SILICA
|
2.651
|
X
|
60
|
=
|
159.060
|
¸
|
5.96
|
=
|
26.69
|
¸
|
100
|
=
|
0.267
|
||||
596.112
|
100.000
|
1.000
|
|||||||||||||||
FIGURE #2 LEACH WHITE
C/8 – 10R
CUSTER
|
40.00 %
|
|
WHITING
|
20.00 %
|
|
E.P. KAOLIN
|
10.00 %
|
|
SILICA
|
30.00 %
|
|
100.00 %
|
||
ZIRCOPAX
|
10.00 %
|
K2O
|
.170
|
AL2O3
|
.404
|
SIO2
|
3.909
|
||||
NA2O
|
.075
|
||||||||
CAO
|
.755
|
FIGURE #3 LEACH WHITE (FIRST SUBSTITUTION)
NEPHELINE/SYENITE
|
40 X .733
|
29.32 %
|
||
SILICA
|
40 X .267
|
10.68 %
|
||
WHITING
|
20.00 %
|
|||
E.P. KAOLIN
|
10.00 %
|
|||
SILICA
|
30.00 %
|
|||
100.00 %
|
K2O
|
.061
|
AL2O3
|
.414
|
SIO2
|
3.990
|
||||
NA2O
|
.179
|
||||||||
CAO
|
.760
|
FIGURE #4 LEACH WHITE (SECOND SUBSTITUTION)
NEPHELINE/SYENITE
|
40 X .681
|
27.26 %
|
||
SILICA
|
40 X .240
|
9.60 %
|
||
WHITING
|
20.00 %
|
|||
E.P. KAOLIN
|
10.00 %
|
|||
SILICA
|
30.00 %
|
|||
96.96 %
|
K2O
|
.058
|
AL2O3
|
.402
|
SIO2
|
3.907
|
||||
NA2O
|
.170
|
||||||||
CAO
|
.772
|
FIGURE #5 TRANSPARENT
C/8 – 10R
CUSTER
|
43.50 %
|
|
SILICA
|
28.10 %
|
|
E.P. KAOLIN
|
10.30 %
|
|
WHITING
|
18.10 %
|
|
100.00 %
|
K2O
|
.194
|
AL2O3
|
.456
|
SIO2
|
4.163
|
||||
NA2O
|
.087
|
||||||||
CAO
|
.718
|
FIGURE #6 TRANSPARENT (SUBSTITUTION)
NEPHELINE/SYENITE
|
43.5 X .681
|
29.62 %
|
||
SILICA
|
43.5 X .240
|
10.44 %
|
||
SILICA
|
28.10 %
|
|||
E. P. KAOLIN
|
10.30 %
|
|||
WHITING
|
18.10 %
|
|||
96.56 %
|
K2O
|
.065
|
AL2O3
|
.453
|
SIO2
|
4.163
|
||||
NA2O
|
.196
|
||||||||
CAO
|
.739
|
FIGURE #7 YAC #1
C/8 – 10R
CUSTER
|
56.80 %
|
|
DOLOMITE
|
13.60 %
|
|
WHITING
|
10.60 %
|
|
ZINC OXIDE
|
3.00 %
|
|
E.P. KAOLIN
|
16.00 %
|
|
100.00 %
|
||
RUTILE
|
2.00 %
|
|
RED IRON OXIDE
|
3.00 %
|
K2O
|
.164
|
AL2O3
|
.415
|
SIO2
|
2.019
|
||||
NA2O
|
.076
|
||||||||
CAO
|
.470
|
||||||||
MGO
|
.193
|
||||||||
ZNO
|
.097
|
FIGURE #8 YAC # 1 (SUBSTITUTION)
NEPHELINE/SYENITE
|
56.8 X .681
|
38.68 %
|
||
SILICA
|
56.8 X .240
|
13.63 %
|
||
DOLOMITE
|
13.60 %
|
|||
WHITING
|
10.60 %
|
|||
ZINC OXIDE
|
3.00 %
|
|||
E. P. KAOLIN
|
16.00 %
|
|||
95.51 %
|
K2O
|
.056
|
AL2O3
|
.413
|
SIO2
|
2.005
|
||||
NA2O
|
.168
|
||||||||
CAO
|
.480
|
||||||||
MGO
|
.197
|
||||||||
ZNO
|
.099
|
The proposed proportion is : 0.681 Nepheline/Syenite
0.240
Silica for 1%
Custer Feldspar
PROPOSITION “C”
Making an average of propositions “A” and “B” we obtain the
following substitution : .721 Nepheline/Syenite and .239
Silica.
III. SUBSTITUTION
FOR CUSTER FELDSPAR USING AN INTERMEDIARY PROPORTION OF NEPHELINE/SYENITE
AND SILICA
FIGURE #1 LEACH WHITE
C/8 – 10R
CUSTER
|
40.00 %
|
|
WHITING
|
20.00 %
|
|
E.P. KAOLIN
|
10.00 %
|
|
SILICA
|
30.00 %
|
|
100.00 %
|
||
ZIRCOPAX
|
10.00 %
|
K2O
|
.170
|
AL2O3
|
.404
|
SIO2
|
3.909
|
||||
NA2O
|
.075
|
||||||||
CAO
|
.755
|
FIGURE #2 LEACH WHITE (SUBSTITUTION)
NEPHELINE/SYENITE
|
40 X .721
|
28.84 %
|
||
SILICA
|
40 X .239
|
9.56 %
|
||
WHITING
|
20.00 %
|
|||
E.P. KAOLIN
|
10.00 %
|
|||
SILICA
|
30.00 %
|
|||
98.40 %
|
K2O
|
.057
|
}(-4.9%)
|
AL2O3
|
.414
|
SIO2
|
3.927
|
|||
NA2O
|
.175
|
(+2.5%)
|
(+.5%)
|
||||||
CAO
|
.766
|
(+1.5%)
|
FIGURE #3 TRANSPARENT
C/8 – 10R
CUSTER
|
43.50 %
|
|
SILICA
|
28.10 %
|
|
E.P. KAOLIN
|
10.30 %
|
|
WHITING
|
18.10 %
|
|
100.00 %
|
K2O
|
.194
|
AL2O3
|
.456
|
SIO2
|
4.163
|
||||
NA2O
|
.087
|
||||||||
CAO
|
.718
|
FIGURE #4 TRANSPARENT (SUBSTITUTION)
NEPHELINE/SYENITE
|
43.5 X .721
|
31.36 %
|
||
SILICA
|
43.5 X .239
|
10.44 %
|
||
SILICA
|
28.10 %
|
|||
E. P. KAOLIN
|
10.30 %
|
|||
WHITING
|
18.10 %
|
|||
98.26 %
|
K2O
|
.068
|
}(-2.9%)
|
AL2O3
|
.462
|
SIO2
|
4.165
|
|||
NA2O
|
.205
|
(+1.3%)
|
|||||||
CAO
|
.727
|
(+1.2%)
|
FIGURE #5 YAC #1
C/8 – 10R
CUSTER
|
56.80 %
|
|
DOLOMITE
|
13.60 %
|
|
WHITING
|
10.60 %
|
|
ZINC OXIDE
|
3.00 %
|
|
E.P. KAOLIN
|
16.00 %
|
|
100.00 %
|
||
RUTILE
|
2.00 %
|
|
RED IRON OXIDE
|
3.00 %
|
K2O
|
.164
|
AL2O3
|
.415
|
SIO2
|
2.018
|
||||
NA2O
|
.076
|
||||||||
CAO
|
.470
|
||||||||
MGO
|
.193
|
||||||||
ZNO
|
.097
|
FIGURE #6 YAC # 1 (SUBSTITUTION)
NEPHELINE/SYENITE
|
56.8 X .721
|
40.90 %
|
||
SILICA
|
56.8 X .239
|
13.60 %
|
||
DOLOMITE
|
13.60 %
|
|||
WHITING
|
10.60 %
|
|||
ZINC OXIDE
|
3.00 %
|
|||
E. P. KAOLIN
|
16.00 %
|
|||
97.70 %
|
K2O
|
.058
|
}(-3.4%)
|
AL2O3
|
.422
|
SIO2
|
2.003
|
|||
NA2O
|
.174
|
(+1.7%)
|
(-.8%)
|
||||||
CAO
|
.475
|
(+1%)
|
|||||||
MGO
|
.195
|
(+1%)
|
|||||||
ZNO
|
.098
|
(+1%)
|
The proposed proportion is : 0.721 Nepheline/Syenite
0.239
Silica for 1%
Custer Feldspar
N.B. From my book "Substitutions for Raw Ceramic Materials" Available in the USA from Potters Shop, Brackers, Laguna. In Canada, from Tuckers in Toronto.
N.B. From my book "Substitutions for Raw Ceramic Materials" Available in the USA from Potters Shop, Brackers, Laguna. In Canada, from Tuckers in Toronto.
------------------------------------------------
Toxicology Ceramics Glass and
Metallurgy
http://toxicologyceramics.blogspot.com/
----------------------------
Toxicologie Céramique Verrerie et Métallurgie
http://toxicologieceramique.blogspot.com/
----------------------------
Substitutions de Matériaux Céramiques Complexes
http://substitutionsceramiques.blogspot.com/
--------------------------
Substitutions for Raw Ceramic Materials
http://substitutionsceramic.blogspot.com/
-------------------------
Sustituciones de Materiales de Cerámica Complejos
http://sustitucionesceramica.blogspot.com/
-----------------------------
Substituiçðes de Materiais Cerâmicos Complexos
http://substituicoesceramicos-poterie.blogspot.com/
----------------------------
Sostituzioni di Materiali Complessi per la Ceramica
http://sostituzioniceramica.blogspot.com/
--------------------------
Anstataŭoj por Keramikaj Krudmaterialoj
http://anstatauojkrudmaterialoj.blogspot.com/
--------------------------
Ersätze für keramische Rohstoffe
http://erstzefrkeramischerohstoffe.blogspot.com/
-------------------------
http://toxicologyceramics.blogspot.com/
----------------------------
Toxicologie Céramique Verrerie et Métallurgie
http://toxicologieceramique.blogspot.com/
----------------------------
Substitutions de Matériaux Céramiques Complexes
http://substitutionsceramiques.blogspot.com/
--------------------------
Substitutions for Raw Ceramic Materials
http://substitutionsceramic.blogspot.com/
-------------------------
Sustituciones de Materiales de Cerámica Complejos
http://sustitucionesceramica.blogspot.com/
-----------------------------
Substituiçðes de Materiais Cerâmicos Complexos
http://substituicoesceramicos-poterie.blogspot.com/
----------------------------
Sostituzioni di Materiali Complessi per la Ceramica
http://sostituzioniceramica.blogspot.com/
--------------------------
Anstataŭoj por Keramikaj Krudmaterialoj
http://anstatauojkrudmaterialoj.blogspot.com/
--------------------------
Ersätze für keramische Rohstoffe
http://erstzefrkeramischerohstoffe.blogspot.com/
-------------------------
-------------------------
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