3-300mm laboratory infrared quartz tube
3-300mm laboratory infrared quartz tube is a special industrial technical glass, mainly used in high-temperature applications in laboratories.
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
as per customer's requirement
Availability: | |
---|---|
3-300mm laboratory infrared quartz tube
3-300mm laboratory infrared quartz tube is a special industrial technical glass, mainly used in high-temperature applications in laboratories.
Size range: The size range of quartz tubes ranges from 3mm to 350mm, providing various specifications to meet different laboratory needs.
Chemical composition: Quartz tubes are mainly composed of silica (SiO2). This material has an extremely low thermal expansion coefficient, high temperature resistance, excellent chemical stability, excellent electrical insulation, and low and stable ultrasonic delay performance.
Transmittance: Quartz tubes have good transmittance of ultraviolet light, as well as visible light and infrared light.
Mechanical properties: The mechanical properties of this quartz tube are higher than those of ordinary glass, making it more stable in high-temperature environments.
Application field: Quartz tubes are widely used in high-temperature equipment in laboratories, such as high-temperature furnaces, experimental furnaces, vacuum furnaces, etc., especially in laboratories for laser and infrared materials experiments.
Customized processing: These quartz tubes can be processed in various ways, such as cutting, firing, sealing, sandblasting, and shaping, and can be customized according to the drawings or samples provided by customers.
High temperature and corrosion resistance: The hardening point temperature of quartz tubes is about 1730℃, and they can be used for a long time at 1100℃. The maximum short-term use temperature can reach 1450℃. Quartz glass belongs to an acidic material, and it has good corrosion resistance to other chemical substances except for hydrofluoric acid and hot phosphoric acid.
3-300mm laboratory infrared quartz tubes, due to their excellent physical and chemical properties, play an important role in laboratory equipment, especially in high-temperature applications and infrared material research.
3-300mm laboratory infrared quartz tube
3-300mm laboratory infrared quartz tube is a special industrial technical glass, mainly used in high-temperature applications in laboratories.
Size range: The size range of quartz tubes ranges from 3mm to 350mm, providing various specifications to meet different laboratory needs.
Chemical composition: Quartz tubes are mainly composed of silica (SiO2). This material has an extremely low thermal expansion coefficient, high temperature resistance, excellent chemical stability, excellent electrical insulation, and low and stable ultrasonic delay performance.
Transmittance: Quartz tubes have good transmittance of ultraviolet light, as well as visible light and infrared light.
Mechanical properties: The mechanical properties of this quartz tube are higher than those of ordinary glass, making it more stable in high-temperature environments.
Application field: Quartz tubes are widely used in high-temperature equipment in laboratories, such as high-temperature furnaces, experimental furnaces, vacuum furnaces, etc., especially in laboratories for laser and infrared materials experiments.
Customized processing: These quartz tubes can be processed in various ways, such as cutting, firing, sealing, sandblasting, and shaping, and can be customized according to the drawings or samples provided by customers.
High temperature and corrosion resistance: The hardening point temperature of quartz tubes is about 1730℃, and they can be used for a long time at 1100℃. The maximum short-term use temperature can reach 1450℃. Quartz glass belongs to an acidic material, and it has good corrosion resistance to other chemical substances except for hydrofluoric acid and hot phosphoric acid.
3-300mm laboratory infrared quartz tubes, due to their excellent physical and chemical properties, play an important role in laboratory equipment, especially in high-temperature applications and infrared material research.