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Bead Kiln

Select your required temperature range

This kiln is specifically engineered for creating glass beads through processes like lampworking or fusing. Operating at similar temperatures to the bead furnace (around 800°C), it is used for the final annealing or fusing stage. The working principle involves a chamber that heats multiple beads uniformly and slowly to relieve stresses introduced during shaping, then cools them under controlled...

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800
°Celsius
1472°F

Bead Kiln

TC: K (Chromel-Alumel)
HE: Kanthal A1 (FeCrAl)
Working: 700°C
900
°Celsius
1652°F

Bead Kiln

TC: K (Chromel-Alumel)
HE: Kanthal A1 (FeCrAl)
Working: 800°C
1000
°Celsius
1832°F

Bead Kiln

TC: N (Nicrosil-Nisil)
HE: Kanthal A1 (FeCrAl)
Working: 900°C
1100
°Celsius
2012°F

Bead Kiln

TC: N (Nicrosil-Nisil)
HE: Kanthal A1 (FeCrAl)
Working: 1000°C
1200
°Celsius
2192°F

Bead Kiln

TC: S (Platinum-10% Rhodium)
HE: Kanthal A1 (FeCrAl)
Working: 1100°C
1300
°Celsius
2372°F

High Temperature Bead Kiln

TC: S (Platinum-10% Rhodium)
HE: Silicon Carbide (SiC)
Working: 1200°C
1400
°Celsius
2552°F

High Temperature Bead Kiln

TC: B (Platinum-30% Rhodium)
HE: Silicon Carbide (SiC)
Working: 1300°C

Bead Kiln - Temperature Specifications

This kiln is specifically engineered for creating glass beads through processes like lampworking or fusing. Its purpose is to ensure the durability and stability of the finished glass beads by preventing internal fractures. Operating at similar temperatures to the bead furnace (around 800°C), it is used for the final annealing or fusing stage. The Bead Kiln is available in 7 temperature configurations ranging from 800°C to 1400°C. Each temperature variant is engineered with appropriate thermocouple and heating element technology.