Difference between revisions of "Skull crucible"

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[[Image:Skull-melting2.jpg|left|thumb|240px|Skull-crucible]]
 
[[Image:Skull-melting2.jpg|left|thumb|240px|Skull-crucible]]
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The synthesizing of cubic zirconia posed two main problems throughout the 20th century. The melting point of zirconium dioxide was so high (2750°C) that none of the usual crucibles (graphite, platinum etc) could withstand that heat. The other problem was that ZrO<sub>2</sub> tends to crystallize as monoclinic crystals instead of in the cubic system.<br />
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The first barrier was taken by letting the zirconium dioxide powder form its own crucible (a skull) and the second by adding stabilizers as yttria (Y<sub>2</sub>O<sub>3</sub>) or calcium oxide (CaO).
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In order to create the high temperatures that are needed to melt zirconium oxide radio-frequency (RF) waves are used. These have a frequency of about 4MHz with a voltage between 50 and 100kW (enough to power your favorite radio station). This RF induction only works on good electrical and thermal conductors, zirconium dioxide not being one of them. This is solved by placing a rod of zirconium metal in the center of the crucible.
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The zirconium metal and the zirconium dioxide source powder are placed inside the crucible and the system is turned on. Water pipes provide a flow of cold water to the copper "fingers" that line the crucible, keeping the outer perimeters of the source powder cool (preventing them from melting).<br />
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The radio waves that pass through the copper RF coil heat up the zirconium metal which in turn heats up the surrounding powder. As this powder melts it becomes receptacle to the RF induction and in turn melts its surrounding powder. This goes on until the powder that is close to the cooled fingers prevents it from melting.<br />
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The workings are similar to how a kitchen microwave oven works.

Revision as of 08:45, 7 September 2007

The "skull-crucible" of "skull-melting" method is mainly used to create synthetic cubic zirconia (atleast when it comes to synthesizing gemstones).
The "skull" part refers to the thin crust (or skull) of white zirconium dioxide that is formed around the crystallized core.

Although cubic zirconia (ZrO2) occurs naturally in nature, it is mainly monoclinic of nature and is known as baddeleyite. The cubic form, known as "arkelite" occurs sometimes in zircon.

Skull-crucible

The synthesizing of cubic zirconia posed two main problems throughout the 20th century. The melting point of zirconium dioxide was so high (2750°C) that none of the usual crucibles (graphite, platinum etc) could withstand that heat. The other problem was that ZrO2 tends to crystallize as monoclinic crystals instead of in the cubic system.
The first barrier was taken by letting the zirconium dioxide powder form its own crucible (a skull) and the second by adding stabilizers as yttria (Y2O3) or calcium oxide (CaO).

In order to create the high temperatures that are needed to melt zirconium oxide radio-frequency (RF) waves are used. These have a frequency of about 4MHz with a voltage between 50 and 100kW (enough to power your favorite radio station). This RF induction only works on good electrical and thermal conductors, zirconium dioxide not being one of them. This is solved by placing a rod of zirconium metal in the center of the crucible.

The zirconium metal and the zirconium dioxide source powder are placed inside the crucible and the system is turned on. Water pipes provide a flow of cold water to the copper "fingers" that line the crucible, keeping the outer perimeters of the source powder cool (preventing them from melting).
The radio waves that pass through the copper RF coil heat up the zirconium metal which in turn heats up the surrounding powder. As this powder melts it becomes receptacle to the RF induction and in turn melts its surrounding powder. This goes on until the powder that is close to the cooled fingers prevents it from melting.
The workings are similar to how a kitchen microwave oven works.