High purity metal melting quartz glass tube
High purity metal melted quartz glass tube is a special industrial material mainly made by melting high-purity quartz or silicon dioxide.
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 metal melting quartz glass tube
High purity metal melted quartz glass tube is a special industrial material mainly made by melting high-purity quartz or silicon dioxide. Quartz glass tubes have a wide range of applications in various fields due to their unique properties.
The main characteristics of quartz glass tubes include:
High purity: Quartz glass tubes are made of high-purity silicon dioxide, typically with a purity of over 99.9%. This high purity makes quartz glass tubes have important applications in many high-tech fields.
High temperature resistance: Quartz glass tubes can maintain stability in extreme high temperature environments, and their high temperature resistance performance is excellent.
Optical performance: Quartz glass tubes have good optical transparency and are suitable for applications that require high transparency.
Chemical stability: Quartz glass tubes have good chemical inertness and are not easily reactive with most chemicals.
The main application areas of quartz glass tubes include:
Semiconductor manufacturing: In the semiconductor manufacturing process, quartz glass tubes are used to provide high-purity gas and liquid transport, ensuring the stability of the production process and product quality.
High temperature furnace: In a high temperature furnace, quartz glass tubes can withstand high temperatures and pressures, while also having good corrosion resistance and wear resistance.
Lighting solution: Quartz glass tubes are used in lighting solutions to provide efficient and stable optical transmission and reflection.
Laboratory equipment: Quartz glass tubes are used for high-precision and high stability measurement and analysis in laboratory equipment.
The production process of quartz glass tubes is complex, requiring high-temperature melting and precise control technology. Common production processes include electric furnace technology, plasma heating, etc.
High purity metal melting quartz glass tube
High purity metal melted quartz glass tube is a special industrial material mainly made by melting high-purity quartz or silicon dioxide. Quartz glass tubes have a wide range of applications in various fields due to their unique properties.
The main characteristics of quartz glass tubes include:
High purity: Quartz glass tubes are made of high-purity silicon dioxide, typically with a purity of over 99.9%. This high purity makes quartz glass tubes have important applications in many high-tech fields.
High temperature resistance: Quartz glass tubes can maintain stability in extreme high temperature environments, and their high temperature resistance performance is excellent.
Optical performance: Quartz glass tubes have good optical transparency and are suitable for applications that require high transparency.
Chemical stability: Quartz glass tubes have good chemical inertness and are not easily reactive with most chemicals.
The main application areas of quartz glass tubes include:
Semiconductor manufacturing: In the semiconductor manufacturing process, quartz glass tubes are used to provide high-purity gas and liquid transport, ensuring the stability of the production process and product quality.
High temperature furnace: In a high temperature furnace, quartz glass tubes can withstand high temperatures and pressures, while also having good corrosion resistance and wear resistance.
Lighting solution: Quartz glass tubes are used in lighting solutions to provide efficient and stable optical transmission and reflection.
Laboratory equipment: Quartz glass tubes are used for high-precision and high stability measurement and analysis in laboratory equipment.
The production process of quartz glass tubes is complex, requiring high-temperature melting and precise control technology. Common production processes include electric furnace technology, plasma heating, etc.