Difference between revisions of "Crucible"

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==Materials used and their performance==
 
==Materials used and their performance==
 
===Alumina===
 
===Alumina===
Good for high temperatures, not compatible with alkali hydroxides.
+
Good for high temperatures, not compatible with molten alkali hydroxides or molten bisulfates.
  
 
===Clay graphite===
 
===Clay graphite===
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==Safety==
 
==Safety==
Ceramic crucibles cool slower compared to their metal counterparts, and one may get burned if it's touched without proper protection.
+
Ceramic crucibles cool slower compared to their metal counterparts, and one may get burned if they're touched without proper protection.
  
 
Ceramic crucibles may crack if they're not heated uniformly.
 
Ceramic crucibles may crack if they're not heated uniformly.

Revision as of 18:47, 9 October 2018

A small alumina crucible

A crucible is a container, usually cup-shaped, capable of withstanding high or very high temperatures. Crucibles are commonly used for melting various materials such as metals, glass, organic compounds, as well as for calcination and reactor for high temperature chemical reactions.

General

Crucibles are cup-shaped containers, some lidded other not. They are made of a heat resistant materials, such as ceramic, metal (alloys, platinum-group or refractory metals) or certain oxides (alumina, quartz, zirconia), carbides (tungsten carbide), nitrides (aluminium nitride).

Materials used and their performance

Alumina

Good for high temperatures, not compatible with molten alkali hydroxides or molten bisulfates.

Clay graphite

Excellent for melting metals with high melting point up until iron. Displays excellent thermal shock resistance. Prolonged use will cause its outer form deform and become glassy, though this isn't a problem. If it cracks, it will self-heal if strongly heated.[1]

Fused quartz

Useful to temperatures up to 1,200 °C and immune to oxidizing reagents. Not compatible with alkali or alkaline metals.

Graphite

As carbon has the highest boiling point of all nonmetals, it can be used for achieving very high temperatures. However, it may react with molten iron and if the atmosphere is too oxidizing it may burn.

Iridium

One of the best types of crucible, displays excellent properties at high temperatures as well as good chemical resistance, though molten alkali will affect it. Main disadvantage is price, they're very expensive.

Magnesia

Good for temperatures up to 2,300 °C and immune to molten alkali.

Nickel

Good performance at high temperatures, but will oxidize if heated too much in air.

Stainless steel

Used mostly for temperatures up to 1000-1200 °C, these crucibles are good for calcinating organic or inorganic compounds and melting alkali. However, it's very easy to melt them if the flame gets too hot. Also, SS crucibles will oxidize in air if heated too high.

Titanium

Lightweight and chemical resistant, titanium offers good performance at high temperatures.

Tungsten carbide

Excellent thermal resistance and shows good chemical resistance at high temperature.

Others

Fired clay crucibles, such as flower pots can be used as crucibles, but they're prone to cracking.

Availability

Crucibles can be purchased from pottery stores or online.

DIY crucible

Fired clay crucibles are very easy to make. They however, cannot be used at very high temperatures.

Graphite crucibles can be made very easily by drilling a precise hole in a solid graphite cylinder.

Projects

  • Metal smelting
  • Calcinate organic compounds
  • Grow monocrystals

Safety

Ceramic crucibles cool slower compared to their metal counterparts, and one may get burned if they're touched without proper protection.

Ceramic crucibles may crack if they're not heated uniformly.

References

  1. https://www.youtube.com/watch?v=l2FuvKTyRMQ

Relevant Sciencemadness threads