High purity diffusion furnace quartz glass tube
High purity diffusion furnace quartz glass tube is a key material used in semiconductor manufacturing processes.
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 diffusion furnace quartz glass tube
High purity diffusion furnace quartz glass tube is a key material used in semiconductor manufacturing processes. This type of quartz glass tube is indispensable in industries such as semiconductors, optical devices, telecommunications, and solar energy due to its high purity, pollution-free, and high-temperature resistance. In the semiconductor industry, these quartz tubes are mainly used in diffusion furnaces, which can maintain chemical stability and physical integrity at high temperatures, making them an ideal choice for processing and processing semiconductor materials.
The quartz glass tubes used in diffusion furnaces typically have a diameter between 55 and 90 millimeters and a length between 1500 and 2000 millimeters. These quartz tubes maintain stability in high temperature and corrosive environments, ensuring uniform airflow and reactions, which have a significant impact on the quality and efficiency of semiconductor manufacturing processes.
In addition, quartz glass products have extremely high environmental requirements during processing, mainly due to the high purity, high transparency, and high thermal stability of quartz glass. The processing environment needs to achieve extremely high cleanliness to avoid contamination of quartz glass products by pollutants such as dust and particles. For quartz glass products used in semiconductor technology and other fields, the working environment requires an air purification level of 1000 to 5000. At the same time, the temperature and humidity of the processing environment also need to be strictly controlled to ensure that the performance of quartz glass products is not affected.
These characteristics of quartz glass products make them the top glass material in semiconductor equipment, widely used in semiconductor devices, semiconductor quartz substrates, semiconductor quartz materials and other fields.
High purity diffusion furnace quartz glass tube
High purity diffusion furnace quartz glass tube is a key material used in semiconductor manufacturing processes. This type of quartz glass tube is indispensable in industries such as semiconductors, optical devices, telecommunications, and solar energy due to its high purity, pollution-free, and high-temperature resistance. In the semiconductor industry, these quartz tubes are mainly used in diffusion furnaces, which can maintain chemical stability and physical integrity at high temperatures, making them an ideal choice for processing and processing semiconductor materials.
The quartz glass tubes used in diffusion furnaces typically have a diameter between 55 and 90 millimeters and a length between 1500 and 2000 millimeters. These quartz tubes maintain stability in high temperature and corrosive environments, ensuring uniform airflow and reactions, which have a significant impact on the quality and efficiency of semiconductor manufacturing processes.
In addition, quartz glass products have extremely high environmental requirements during processing, mainly due to the high purity, high transparency, and high thermal stability of quartz glass. The processing environment needs to achieve extremely high cleanliness to avoid contamination of quartz glass products by pollutants such as dust and particles. For quartz glass products used in semiconductor technology and other fields, the working environment requires an air purification level of 1000 to 5000. At the same time, the temperature and humidity of the processing environment also need to be strictly controlled to ensure that the performance of quartz glass products is not affected.
These characteristics of quartz glass products make them the top glass material in semiconductor equipment, widely used in semiconductor devices, semiconductor quartz substrates, semiconductor quartz materials and other fields.