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Borosilicate glass has excellent thermal stability and chemical stability, and borosilicate glass uses are wide, such as instrument glass and glassware. With the development of glass melting technology and refractory materials, borosilicate glass will be applied in more fields. This article summarizes the current borosilicate glass uses and development trends of borosilicate glass based on actual production and application conditions.
Due to its many unique and excellent properties, borosilicate glass uses are wide.
Instrument glass refers to glass used for manufacturing chemical, biological, and laboratory glassware, tubing, and apparatuses. Instrument glass has been widely used in scientific research, education, chemical industry, medical and health fields, as well as various industrial productions, including high-tech areas such as aerospace, lasers, bioengineering, and nuclear engineering. Requirements for instrument glass include good chemical stability, good thermal stability, high mechanical strength, and good processing properties, which align well with the characteristics of borosilicate glass.
Glassware is an important branch of the glass industry, mainly comprising pressed and blown glass products. Topglass provides animal cartoon borosilicate cup, borosilicate glass wine glasses, borosilicate double wall glass, borosilicate glass vase and other borosilicate glass products. Glass cookware requires good thermal shock resistance, generally requiring direct heating with an open flame at temperatures above 150°C. The main types of glass used for cookware are borosilicate glass and glass-ceramics. The use of borosilicate glass ensures that the glass cookware does not deform during high-temperature heating, guaranteeing the quality of the cookware.
Pharmaceutical glass is a major branch of the pharmaceutical packaging industry and is an important component of the entire pharmaceutical industry. Pharmaceutical glass generally refers to neutral glass with high chemical stability. It requires high chemical stability, good sealing, and strong mechanical properties. Borosilicate glass material is the primary material for this type of glass because it maintains high chemical stability during high-temperature heating.
Photochromic glass is generally divided into homogeneous and heterogeneous types, with heterogeneous photochromic glass systems being quite extensive. Borosilicate glass material is the primary material used. Photochromic glass is most commonly used for eyeglasses but can also be used for automotive protective glass, laser protection, aerospace window materials, and switches for new instruments. Industrial glass viewing windows are used as transparent windows under certain temperature and pressure conditions, featuring high transparency, temperature resistance, pressure resistance, and good chemical stability.
Currently, the most widely used type of glass fiber is a type of borosilicate glass known as E-glass, which has excellent electrical insulation and mechanical properties. It is widely used for producing electrical insulation glass fibers and for manufacturing glass fiber-reinforced plastics.
The extensive and in-depth application of borosilicate glass from the leading borosilicate glass company is unmatched by other types of glass. With the improvement of glass melting technology and advancements in glass forming and processing technology, borosilicate glass will achieve greater development and application. The use of borosilicate glass is just beginning, and it will develop towards multi-specifications, large sizes, multifunctionality, high quality, and large-scale production in the future. Scientists worldwide are paying high attention to borosilicate glass. As people's requirements and demands for glass continue to rise, the role of borosilicate glass function will be increasingly emphasized.
