Silicon Carbide Crucible A1 Jewellers Melting Pot 1KG - TC1454

Description

A1 Silicon Carbide Melting Crucible
These crucibles are carbon-bonded silicon carbide crucibles, which are characterized by excellent thermal conductivity and high chemical erosion resistance. Due to their carbon content, SiC crucibles have excellent stability at high temperatures and are therefore particularly suitable for processes where the temperature is changing frequently and where high heating rates are utilized.
These crucibles are particularly suitable for processes with frequently changing temperatures and high heating rates. They can be used for the holding of all non-ferrous alloys. They have a very high mechanical strength and a high refractoriness, making them especially suitable for melting heavy metal alloys. Additionally, they are resistant to chemical attack by fluxes. They are suitable for electric resistance heated and fuel-fired and induction furnaces. They perform well under difficult operating conditions.
Size A1
Height 90mm
Gold capacity 1kg (different for other metals)
Typical Metal Casting Temperature :
700°C - 1000°C (1292°F - 1832°F)
Please Note: Max. temperature: 1,600ºC (2,912ºF)
https://stores.ebay.co.uk/hswalsh/ - Visit our UK eBay store here.
These crucibles are carbon-bonded silicon carbide crucibles, which are characterized by excellent thermal conductivity and high chemical erosion resistance. Due to their carbon content, SiC crucibles have excellent stability at high temperatures and are therefore particularly suitable for processes where the temperature is changing frequently and where high heating rates are utilized. These crucibles are particularly suitable for processes with frequently changing temperatures and high heating rates. They can be used for the holding of all non-ferrous alloys. They have a very high mechanical strength and a high refractoriness, making them especially suitable for melting heavy metal alloys. Additionally, they are resistant to chemical attack by fluxes. They are suitable for electric resista