GORGEOUS CERAMICS (GGS) silicon carbide crucibles are formed by isostatic pressing and pressureless sintering, and sizes can be customized according to customer needs.
Advantages of Silicon Carbide Crucibles
GORGEOUS CERAMICS (GGS) silicon carbide crucibles utilize a submicron-scale fine-grained material with a smooth surface, achieving a Ra < 1.6 even in the raw product stage.
Their maximum temperature resistance reaches 1700℃, and up to 1950℃ in a protective atmosphere (nitrogen or argon).
Excellent thermal shock resistance allows the crucible to adapt to rapid temperature changes, and superior corrosion resistance enables its use in highly corrosive environments.
Applications of Silicon Carbide Crucibles
High-temperature roasting and calcination
Silicon carbide crucibles can be used for high-temperature calcination and roasting of ceramic powders and raw materials.
Molten Salt Systems and High-Temperature Media Experiments
Silicon carbide crucibles possess excellent corrosion resistance, are not easily deformed at high temperatures, and are not prone to chemical reactions. They can be used for heating, melting, and reaction processes in various molten salt systems.
Alloy melting
Suitable for melting non-ferrous metals such as aluminum, copper, nickel, and zinc, and their alloys.
Veelgestelde vragen
What are the main advantages of GORGEOUS CERAMICS (GGS) silicon carbide crucibles?
Our silicon carbide crucibles have excellent high-temperature resistance, thermal shock resistance, and corrosion resistance. Compared to graphite or clay-graphite crucibles, they offer more stable performance and a longer service life.
Which metals or materials can be melted in a silicon carbide crucible?
Aluminum and its alloys, copper and its alloys, zinc, and other non-ferrous metals.
What is the maximum operating temperature of GORGEOUS CERAMICS (GGS) silicon carbide crucibles?
Our crucibles can withstand temperatures up to 1600℃, depending on the material grade and operating environment, making them suitable for most non-ferrous metal melting and high-temperature reactions.
What is the thermal shock resistance of silicon carbide crucibles?
Our silicon carbide crucibles possess excellent thermal shock resistance. When used correctly according to instructions, they will not crack during rapid heating and cooling cycles.
What are the advantages of silicon carbide crucibles compared to graphite or clay crucibles?
Compared to graphite or clay crucibles, our silicon carbide crucibles offer better oxidation resistance, greater stability at high temperatures, longer lifespan, and lower overall cost over the long term.
