Boron Oxide Glass Solution
Oxidized boron is crucial in glass manufacturing for producing high-borosilicate glass with excellent thermal and chemical resistance, enhancing physical properties like mechanical strength and heat resistance, improving optical clarity and refractive index in optical glass, manufacturing acid-resistant glass, and offering environmental and cost benefits.
Borosilicate Glass Manufacturing
Boric oxide is one of the key components of borosilicate glass. This glass is known for its excellent thermal stability and chemical resistance and is widely used in laboratory equipment, chemical reaction vessels, and high-temperature equipment.
The composition of borosilicate glass usually includes 70% to 80% silicon dioxide (SiO₂) and 6% to 15% boric oxide, which makes it perform well in high temperature and corrosive environments.
Improve Glass Physical Properties
Adding boron oxide can significantly improve the mechanical strength and heat resistance of glass.
This makes the glass less likely to break under conditions of high temperatures and rapid temperature changes, making it suitable for use in cooking utensils and laboratory equipment.
Optical Glass Application:
In the production of optical glass, the addition of boron oxide can improve the transparency and refractive index of the glass.
Boron oxide makes it widely used in the manufacture of optical instruments and lenses.
Acid-Resistant Glass Production
The chemical properties of boric oxide make it very important in the production of acid-resistant glass.
This glass is resistant to attack by strong acids and is suitable for various applications in the chemical industry.
Environmental Protection And Cost-Effectiveness
As environmental regulations are strengthened, the use of boric oxide has also helped reduce the cost of glass production while improving the quality of the product.
This makes it increasingly valued in modern glass manufacturing.
