High purity underwater lighting quartz glass tube
High-purity underwater lighting quartz glass tube is a special industrial technology glass, mainly used in the field of underwater lighting.
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 underwater lighting quartz glass tube
High-purity underwater lighting quartz glass tube is a special industrial technology glass, mainly used in the field of underwater lighting. This glass tube is made of high-purity quartz material, its main component is silica (SiO2), with an extremely small coefficient of linear expansion, only 1/10 to 1/20 that of ordinary glass. This allows quartz glass to remain stable under extreme temperature conditions, commonly used temperatures of 1100 to 1200 ° C, and can withstand high temperatures up to 1400 ° C in the short term.
Quartz glass tubes have a very high purity and good chemical stability. Generally, the content of silica in quartz glass is above 99.9%, and the content of silica in high-purity quartz glass is as high as 99.9999%. This high purity makes quartz glass widely used in electric light sources, semiconductors, and optics.
Quartz glass tubes are indispensable in applications where special properties are required, such as superior heat resistance, superior optical clarity, and excellent chemical inertness. In applications where these special properties are required, quartz glass tubes are widely used in high temperature furnaces, semiconductor manufacturing processes, lighting solutions, and laboratory equipment. In lighting solutions, quartz glass tubes are able to provide efficient, stable optical transmission and reflection, while having good temperature and light resistance.
In addition, quartz glass tubes can also be classified according to different needs, such as two categories of transparent and opaque, as well as three categories of ordinary, high purity and doped. The microstructure of quartz glass is formed by closely arranged tetrahedral structural units of silica forming a continuous three-dimensional network by sharing oxygen atoms. This amorphous structure makes quartz glass have many unique physical and chemical properties, such as excellent spectral transmission, extremely low thermal expansion coefficient and conductivity, as well as excellent radiation resistance and long life under extreme conditions.
Due to its unique physical and chemical properties, high-purity underwater lighting quartz glass tubing plays an important role in various underwater lighting applications.
High purity underwater lighting quartz glass tube
High-purity underwater lighting quartz glass tube is a special industrial technology glass, mainly used in the field of underwater lighting. This glass tube is made of high-purity quartz material, its main component is silica (SiO2), with an extremely small coefficient of linear expansion, only 1/10 to 1/20 that of ordinary glass. This allows quartz glass to remain stable under extreme temperature conditions, commonly used temperatures of 1100 to 1200 ° C, and can withstand high temperatures up to 1400 ° C in the short term.
Quartz glass tubes have a very high purity and good chemical stability. Generally, the content of silica in quartz glass is above 99.9%, and the content of silica in high-purity quartz glass is as high as 99.9999%. This high purity makes quartz glass widely used in electric light sources, semiconductors, and optics.
Quartz glass tubes are indispensable in applications where special properties are required, such as superior heat resistance, superior optical clarity, and excellent chemical inertness. In applications where these special properties are required, quartz glass tubes are widely used in high temperature furnaces, semiconductor manufacturing processes, lighting solutions, and laboratory equipment. In lighting solutions, quartz glass tubes are able to provide efficient, stable optical transmission and reflection, while having good temperature and light resistance.
In addition, quartz glass tubes can also be classified according to different needs, such as two categories of transparent and opaque, as well as three categories of ordinary, high purity and doped. The microstructure of quartz glass is formed by closely arranged tetrahedral structural units of silica forming a continuous three-dimensional network by sharing oxygen atoms. This amorphous structure makes quartz glass have many unique physical and chemical properties, such as excellent spectral transmission, extremely low thermal expansion coefficient and conductivity, as well as excellent radiation resistance and long life under extreme conditions.
Due to its unique physical and chemical properties, high-purity underwater lighting quartz glass tubing plays an important role in various underwater lighting applications.