High transmittance resonator quartz glass plate
High transmittance resonator quartz glass plate is a special industrial technology glass that has a series of excellent properties that ordinary glass cannot match.
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 transmittance resonator quartz glass plate
High transmittance resonator quartz glass plate is a special industrial technology glass that has a series of excellent properties that ordinary glass cannot match. This type of quartz glass plate is mainly made by melting high-purity natural quartz (such as crystal, quartz sand), and its main component is silicon dioxide (SiO2). This type of glass is known for its extremely small coefficient of linear expansion (only 1/10~1/20 of ordinary glass), excellent thermal shock resistance, and the ability to remain stable under extreme temperature conditions. The commonly used temperature range is 1100 ℃~1200 ℃, and it can withstand high temperatures up to 1400 ℃ in the short term.
The structural characteristic of quartz glass plate is an amorphous material composed of a single silicon dioxide component, and its microstructure is formed by tightly arranged silicon dioxide tetrahedral structural units sharing oxygen atoms to form a continuous three-dimensional network. This amorphous structure endows quartz glass plates with many unique physical and chemical properties, such as excellent spectral transparency, extremely low thermal expansion coefficient and conductivity, as well as outstanding radiation resistance and long lifespan under extreme conditions. These characteristics together constitute the irreplaceable application value of quartz glass panels in many fields.
The application of high transmittance resonator quartz glass plates is particularly important in the field of optics. It has a very high transmittance and can transmit a continuous wavelength range from ultraviolet to infrared, thus providing good optical performance and stability in optical devices. In addition, the transparency of this quartz glass plate is not affected by temperature, so it can maintain stable performance in high temperature environments.
Quartz glass plates with high transmittance resonators have wide applications in various fields such as optics, photovoltaics, semiconductors, aerospace, etc. due to their unique physical and chemical properties.
High transmittance resonator quartz glass plate
High transmittance resonator quartz glass plate is a special industrial technology glass that has a series of excellent properties that ordinary glass cannot match. This type of quartz glass plate is mainly made by melting high-purity natural quartz (such as crystal, quartz sand), and its main component is silicon dioxide (SiO2). This type of glass is known for its extremely small coefficient of linear expansion (only 1/10~1/20 of ordinary glass), excellent thermal shock resistance, and the ability to remain stable under extreme temperature conditions. The commonly used temperature range is 1100 ℃~1200 ℃, and it can withstand high temperatures up to 1400 ℃ in the short term.
The structural characteristic of quartz glass plate is an amorphous material composed of a single silicon dioxide component, and its microstructure is formed by tightly arranged silicon dioxide tetrahedral structural units sharing oxygen atoms to form a continuous three-dimensional network. This amorphous structure endows quartz glass plates with many unique physical and chemical properties, such as excellent spectral transparency, extremely low thermal expansion coefficient and conductivity, as well as outstanding radiation resistance and long lifespan under extreme conditions. These characteristics together constitute the irreplaceable application value of quartz glass panels in many fields.
The application of high transmittance resonator quartz glass plates is particularly important in the field of optics. It has a very high transmittance and can transmit a continuous wavelength range from ultraviolet to infrared, thus providing good optical performance and stability in optical devices. In addition, the transparency of this quartz glass plate is not affected by temperature, so it can maintain stable performance in high temperature environments.
Quartz glass plates with high transmittance resonators have wide applications in various fields such as optics, photovoltaics, semiconductors, aerospace, etc. due to their unique physical and chemical properties.