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Nepheline Syenite

Generic

Chemistry CaO 0.700 K2O 4.600 Na2O 9.800 Al2O3 23.300 SiO2 60.700 MgO 0.100 Fe2O3 0.100

Volatiles LOI 0.100

Links to Other Materials

• Soda Feldspar - Unspecified
• Cache

Miscellaneous

• Family: Feldspar
• Region: North America
• Mined At: Unspecified
• Raw Mineral: No
• Generic: Yes

Notes

Nepheline Syenite is an anhydrous sodium potassium alumino silicate. Although feldspar-like in its chemistry, mineralogically it is an igneous rock combination of nepheline, microcline, albite and minor minerals like mica, hornblende and magnetite. It is found in Canada, India, Norway and USSR.

Like feldspar, it is used as a flux in tile, sanitaryware, porcelain, vitreous and semi-vitreous bodies. Nepheline syenite contributes high alumina without associated free silica in its raw form. This makes it an excellent tile filler and melter, especially for fast firing. Nepheline syenite fluxes and forms silicates with free silica in bodies without contributing any free silica itself, thereby stabilizing the expansion curve of the fired body. Floor and wall tile bodies benefit from lower absorption and moisture expansion, better mechanical strength and lower thermal expansion than other alumina sources. Nepheline syenite is valuable in glass batches to acheive the lowest melting temperature while acting as a source of alumina.

Nepheline Syenite has been a standard in the ceramic industry for many years, and is very popular for its whiteness. For example, it is possible to make a very white vitreous medium temperature porcelain (as low as cone 4) by mixing a plastic kaolin with nepheline syenite and silica.

In pugged bodies nepheline syenite can be responsible for stiffness changes during aging. It is also more challenging to maintain stable deflocculated slurry bodies using nepheline syenite than with other feldspars.

Because of its sodium content, high nepheline syenite glazes tend to craze (because of the high thermal expansion of Na2O). However bodies fluxed with nepheline syenite do not necessarily exhibit greater expansion than other feldspar bodies.

Nepheline syenite begins melting around cone 1 and is one of the lowest melting feldspars.

Since nepheline syenite has more alumina than most feldspars, substituting it into recipes means that on one hand a lower melting temperature is achieved while on the other a more viscous melt results because of the extra alumina.

The picture of the flow test here shows that nepheline syenite by itself is barely beginning to flow and melt at cone 9. However when combined with other materials it will promote melting to a much greater degree than is suggested by its performance alone. Notice that the 400 and 270 mesh particle size versions do not melt differently at this temperature.

Nepheline syenite is not available in many parts of the world and the INSIGHT ceramic calculation software instruction manual contains a lesson on how to calculate a substitution using a soda feldspar. The chemistry of nepheline is quite different from other feldspars and this is thus well worth while.

(Richard Willis)

Plutonic rock, of anorthite, albite, nepheline; also, pyroxenes, amphiboles, olivine, melanite, cancrinite, sodalite. Formed by magma emissions high in alkalines. Popular substitute for other feldspathics at under 1100ºC firings.
A typical analysis is SiO₂ 60.0%, Al₂O₃ 25.0%, Fe₂O₃ 0.05%, TiO₂ traces, CaO 0.3%, MgO 0.02%, K₂O 5.0%, Na₂O 10.0%

Properties

• Body Maturity - Body Flux

  This material is generally fluxes better than feldspar and produces whiter bodies, however it can be slightly soluble and affect body stiffness over time.

Suppliers

• Generic
  

Authors

• Tony Hansen (Owner)

Pictures

• Nepheline Syenite flow test

  

XML

<?xml version="1.0" encoding="UTF-8"?>
<material name="Nepheline Syenite" descrip="Generic" generic="1" rawmineral="0" searchkey="Neph Sy" loi="0.00">
<families>
<family name="Feldspar"/>
</families>
<regions>
<region name="North America"/>
</regions>
<oxides>
<oxide symbol="CaO" name="Calcium Oxide, Calcia" status="" percent="0.700" tolerance=""/>
<oxide symbol="MgO" name="Magnesium Oxide, Magnesia" status="" percent="0.100" tolerance=""/>
<oxide symbol="K2O" name="Potassium Oxide" status="" percent="4.600" tolerance=""/>
<oxide symbol="Na2O" name="Sodium Oxide, Soda" status="" percent="9.800" tolerance=""/>
<oxide symbol="Al2O3" name="Aluminum Oxide, Alumina" status="U" percent="23.300" tolerance=""/>
<oxide symbol="SiO2" name="Silicon Dioxide, Silica" status="" percent="60.700" tolerance=""/>
<oxide symbol="Fe2O3" name="Iron Oxide, Ferric Oxide" status="" percent="0.100" tolerance=""/>
</oxides>
<volatiles>
<volatile symbol="" name="" percent="0.100" tolerance=""/>
</volatiles>
<references>
<reference name="seealso" reason=""/>
</references>
<suppliers>
<supplier name="Generic" country="" url="" label=""/>
</suppliers>
<notes>
<note>Nepheline Syenite is an anhydrous sodium potassium alumino silicate. Although feldspar-like in its chemistry, mineralogically it is an igneous rock combination of nepheline, microcline, albite and minor minerals like mica, hornblende and magnetite. It is found in Canada, India, Norway and USSR.

Like feldspar, it is used as a flux in tile, sanitaryware, porcelain, vitreous and semi-vitreous bodies. Nepheline syenite contributes high alumina without associated free silica in its raw form. This makes it an excellent tile filler and melter, especially for fast firing. Nepheline syenite fluxes and forms silicates with free silica in bodies without contributing any free silica itself, thereby stabilizing the expansion curve of the fired body. Floor and wall tile bodies benefit from lower absorption and moisture expansion, better mechanical strength and lower thermal expansion than other alumina sources. Nepheline syenite is valuable in glass batches to acheive the lowest melting temperature while acting as a source of alumina.

Nepheline Syenite has been a standard in the ceramic industry for many years, and is very popular for its whiteness. For example, it is possible to make a very white vitreous medium temperature porcelain (as low as cone 4) by mixing a plastic kaolin with nepheline syenite and silica.

In pugged bodies nepheline syenite can be responsible for stiffness changes during aging. It is also more challenging to maintain stable deflocculated slurry bodies using nepheline syenite than with other feldspars.

Because of its sodium content, high nepheline syenite glazes tend to craze (because of the high thermal expansion of Na2O). However bodies fluxed with nepheline syenite do not necessarily exhibit greater expansion than other feldspar bodies.

Nepheline syenite begins melting around cone 1 and is one of the lowest melting feldspars.

Since nepheline syenite has more alumina than most feldspars, substituting it into recipes means that on one hand a lower melting temperature is achieved while on the other a more viscous melt results because of the extra alumina.

The picture of the flow test here shows that nepheline syenite by itself is barely beginning to flow and melt at cone 9. However when combined with other materials it will promote melting to a much greater degree than is suggested by its performance alone. Notice that the 400 and 270 mesh particle size versions do not melt differently at this temperature.

Nepheline syenite is not available in many parts of the world and the INSIGHT ceramic calculation software instruction manual contains a lesson on how to calculate a substitution using a soda feldspar. The chemistry of nepheline is quite different from other feldspars and this is thus well worth while.</note>
<note>Plutonic rock, of anorthite, albite, nepheline; also, pyroxenes, amphiboles, olivine, melanite, cancrinite, sodalite. Formed by magma emissions high in alkalines. Popular substitute for other feldspathics at under 1100&amp;ordm;C firings.
A typical analysis is SiO&lt;FONT SIZE=2&gt;&lt;SUB&gt;2&lt;/SUB&gt;&lt;/FONT&gt;&lt;SUB&gt; &lt;/SUB&gt;60.0%, Al&lt;FONT SIZE=2&gt;&lt;SUB&gt;2&lt;/SUB&gt;&lt;/FONT&gt;O&lt;FONT SIZE=2&gt;&lt;SUB&gt;3&lt;/SUB&gt;&lt;/FONT&gt;&lt;SUB&gt; &lt;/SUB&gt;25.0%, Fe&lt;FONT SIZE=2&gt;&lt;SUB&gt;2&lt;/SUB&gt;&lt;/FONT&gt;O&lt;FONT SIZE=2&gt;&lt;SUB&gt;3&lt;/SUB&gt;&lt;/FONT&gt; 0.05%, TiO&lt;FONT SIZE=2&gt;&lt;SUB&gt;2&lt;/SUB&gt;&lt;/FONT&gt; traces, CaO 0.3%, MgO 0.02%, K&lt;FONT SIZE=2&gt;&lt;SUB&gt;2&lt;/SUB&gt;&lt;/FONT&gt;O 5.0%, Na&lt;FONT SIZE=2&gt;&lt;SUB&gt;2&lt;/SUB&gt;&lt;/FONT&gt;O 10.0%

</note>
</notes>
<pictures>
<picture description="Nepheline Syenite flow test" filename="nephelinesyeniteflowtest.jpg"/>
</pictures>
</material>

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