Chemical/semiconductor/laboratory high-purity square quartz rod
High-purity square quartz rods are a precision material widely used in fields such as chemistry, semiconductors, and laboratories. Their main component is high-purity silicon dioxide (SiO2).
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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Chemical/semiconductor/laboratory high-purity square quartz rod
High-purity square quartz rods are a precision material widely used in fields such as chemistry, semiconductors, and laboratories. Their main component is high-purity silicon dioxide (SiO2).
High purity: The SiO2 purity of high-purity quartz rods is very high, usually above 99.99%, and the purity of some high-end products even reaches 99.998% (4N8 level). This high purity makes quartz rods be applied in high-end technical fields such as semiconductors, photovoltaics, and fiber optic communications.
High temperature resistance: Quartz rods can withstand extremely high temperatures, which makes their application in high temperature environments possible, such as single crystal growth and wafer processing in the semiconductor manufacturing process.
Chemical stability: High-purity quartz rods have excellent chemical stability, which allows them to maintain stability in a variety of chemical environments and are not easily susceptible to reactions with other substances.
Electric insulation: Quartz rods also have very high electrical insulation, which is particularly important for the electronics and semiconductor industries.
In the semiconductor field, high-purity quartz rods are mainly used to prepare quartz crucibles and as auxiliary materials for wafer processing. Quartz crucibles are indispensable containers in the process of monocrystalline silicon growth, and in the etching, diffusion and other steps of wafer processing, a large number of quartz glass products also need to be used.
High-purity quartz rods are also widely used in strategic emerging fields such as fiber optic communication, precision optics, and aerospace.
Chemical/semiconductor/laboratory high-purity square quartz rod
High-purity square quartz rods are a precision material widely used in fields such as chemistry, semiconductors, and laboratories. Their main component is high-purity silicon dioxide (SiO2).
High purity: The SiO2 purity of high-purity quartz rods is very high, usually above 99.99%, and the purity of some high-end products even reaches 99.998% (4N8 level). This high purity makes quartz rods be applied in high-end technical fields such as semiconductors, photovoltaics, and fiber optic communications.
High temperature resistance: Quartz rods can withstand extremely high temperatures, which makes their application in high temperature environments possible, such as single crystal growth and wafer processing in the semiconductor manufacturing process.
Chemical stability: High-purity quartz rods have excellent chemical stability, which allows them to maintain stability in a variety of chemical environments and are not easily susceptible to reactions with other substances.
Electric insulation: Quartz rods also have very high electrical insulation, which is particularly important for the electronics and semiconductor industries.
In the semiconductor field, high-purity quartz rods are mainly used to prepare quartz crucibles and as auxiliary materials for wafer processing. Quartz crucibles are indispensable containers in the process of monocrystalline silicon growth, and in the etching, diffusion and other steps of wafer processing, a large number of quartz glass products also need to be used.
High-purity quartz rods are also widely used in strategic emerging fields such as fiber optic communication, precision optics, and aerospace.