High purity infrared lamp quartz glass tube
High purity infrared lamp quartz glass tube is a special tubular lamp tube that can emit infrared spectra with wavelengths ranging from 0.75 to 3 microns.
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
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High purity infrared lamp quartz glass tube
High purity infrared lamp quartz glass tube is a special tubular lamp tube that can emit infrared spectra with wavelengths ranging from 0.75 to 3 microns. This type of lamp tube is usually composed of a tubular quartz glass tube and a built-in spiral filament. The filament is supported by a circular support ring and isolated from the inner wall of the glass tube to prevent damage to the tube wall caused by high temperatures during operation. The two ends of the quartz tube are clamped and sealed in a flame melted state, and the tube is filled with inert gas such as argon to protect the filament from oxidation at high temperatures. In addition, the clamping position uses molybdenum sheets to connect the filament to the external electrode.
When infrared lamps emit infrared spectra, the temperature of the filament usually needs to reach over 2000 degrees Celsius. In order to protect the filament and improve heating efficiency, an appropriate amount of halogen tungsten circulating gas needs to be filled inside the tube. This gas can combine with tungsten atoms evaporated from the filament at high temperatures and be released back into the filament at its hotspots, thereby extending the lifespan of the filament.
Quartz glass infrared heating tubes exhibit significant advantages in industrial applications, such as fast response time, controllable heat output, and high thermal efficiency. They can accurately match the heated material, achieving fast and effective heating while reducing energy consumption and heating time.
High purity infrared lamp quartz glass tube
High purity infrared lamp quartz glass tube is a special tubular lamp tube that can emit infrared spectra with wavelengths ranging from 0.75 to 3 microns. This type of lamp tube is usually composed of a tubular quartz glass tube and a built-in spiral filament. The filament is supported by a circular support ring and isolated from the inner wall of the glass tube to prevent damage to the tube wall caused by high temperatures during operation. The two ends of the quartz tube are clamped and sealed in a flame melted state, and the tube is filled with inert gas such as argon to protect the filament from oxidation at high temperatures. In addition, the clamping position uses molybdenum sheets to connect the filament to the external electrode.
When infrared lamps emit infrared spectra, the temperature of the filament usually needs to reach over 2000 degrees Celsius. In order to protect the filament and improve heating efficiency, an appropriate amount of halogen tungsten circulating gas needs to be filled inside the tube. This gas can combine with tungsten atoms evaporated from the filament at high temperatures and be released back into the filament at its hotspots, thereby extending the lifespan of the filament.
Quartz glass infrared heating tubes exhibit significant advantages in industrial applications, such as fast response time, controllable heat output, and high thermal efficiency. They can accurately match the heated material, achieving fast and effective heating while reducing energy consumption and heating time.