This product is an AZS crucible brick specifically designed for high-temperature, low-pollution glass melting furnaces. Crafted from high-quality refractory raw materials, it boasts exceptional refractoriness and strong corrosion resistance. It can withstand high temperatures and extreme thermal cycling environments, ensuring a stable furnace structure that resists cracking and deformation. Its specially optimized chemical and physical structures effectively reduce the risk of contamination to molten glass, safeguarding the purity and quality of glass products. The product can be customized in a variety of shapes and specifications to meet the needs of diverse furnace designs. It is widely used in the global glass manufacturing industry, providing reliable support for customers with extremely high demands for product durability and stability. We are committed to providing ongoing technical support and superior after-sales service to help our partners achieve both improved production efficiency and improved product quality, making us a trustworthy partner.
1. Made of high-quality AZS refractory materials, it offers high refractoriness and stability. 2. Excellent corrosion resistance significantly reduces contamination of molten glass. 3. Rational structural design effectively enhances thermal shock resistance and spalling resistance. 4. Customizable according to customer drawings, suitable for a variety of high-temperature furnace environments. 5. Extends furnace life and significantly reduces maintenance costs. 6. Professional technical support and comprehensive after-sales service safeguard customer interests.
Suitable for high-temperature, low-pollution glass melting furnaces, especially for glass manufacturers with high demands for product purity and furnace durability. Widely used in the production of flat glass, optical glass, special-function glass, and other high-end glass products. Suitable for global glass industry customers, particularly those focused on environmentally friendly and high-performance furnace materials.
