Nano microcrystalline stone is a green and environmentally friendly high-end decorative material that has emerged in the world of architectural decoration. It is made from the following inorganic mineral raw materials and some chemical raw materials according to a specific formula: quartz, feldspar, calcite, zinc oxide, caustic soda, sodium fluorosilicate, sodium nitrate, borax, arsenic trioxide, aluminum trioxide, and dolomite. The production process involves melting the mixed raw materials at a temperature of 1300°C to 1600°C, then extruding, compressing, and stretching the material in the temperature range of 800°C to 1200°C, followed by heat treatment and cooling in the temperature range of 300°C to 600°C.
Nano microcrystalline stone has no pores, no impurities, no flatness defects, is non-absorbent, non-staining, non-radioactive, and has high hardness, bending strength, compressive strength, impact resistance, weather resistance, and colorfastness. The raw materials are artificially selected and free of radioactive contamination. The internal structure and physical and chemical properties are designed using artificial intelligence technology, which is superior to natural stone. Despite having a polished surface similar to glass, it can form a natural and soft texture when viewed from any angle, without any pollution, making it a popular green and environmentally friendly material.
The product structure reaches the nanometer level and forms a fibrous molecular structure. It has a soft and sparkling luster, dazzling colors, a hard and delicate texture, is non-absorbent and stain-resistant, acid and alkali-resistant, weather-resistant, and has strong impact resistance, making it suitable for deep processing such as cutting, drilling, carving, and polishing. These excellent physical and chemical properties are unmatched by natural stone. Flat and curved panels of various specifications can be used for interior and exterior walls, floors, columns, countertops, and furniture decoration in buildings.
Microcrystalline materials with high temperature resistance, corrosion resistance, and wear resistance are widely used in the decoration industry, such as coal mines, electric power and papermaking, as well as in high-end hotels, restaurants, shopping malls, office buildings, subway stations, airports, and other interior and exterior decorations, such as wall surfaces, floors, and furniture countertops. They can also be used to manufacture various industrial parts, pipes, containers, and sanitary ware that are wear-resistant, corrosion-resistant, heat-resistant, and impact-resistant, and are suitable for use in various industries such as machinery, chemical, metallurgy, mining, medical, and national defense.