What is Nanoceramic Coating?

Nano-high temperature ceramic coatings are made from high-temperature processing of nanoscale or fine ceramic materials, with ceramic materials being the main component of the nano-ceramic coatings. Ceramic materials are a type of inorganic non-metallic materials formed by shaping and high-temperature sintering of natural or synthetic compounds. They possess high melting points, high hardness, high wear resistance, and oxidation resistance, among other benefits. They can be used as structural materials and cutting tools. Due to their unique properties, ceramics can also serve as functional materials.

Nanoceramic materials generally have high melting points (usually over)2000℃Above), and possesses excellent chemical stability under high temperatures; ceramic has lower thermal conductivity than metal materials and is also a good thermal insulator. A novel ceramic coating combines the characteristics and performance of both organic and inorganic coatings, thus integrating the advantages of both. The hardness of the new generation ceramic coatings can reach above 6H, with resistance to temperatures above 400 degrees Celsius. The coating of nano-ceramic high-temperature coatings typically operates between 280℃-3000℃, requiring the coating to maintain stable physical properties in the aforementioned environment. High-temperature-resistant coatingOur material is widely applied to the inner and outer walls of blast furnaces, hot blast stoves, chimneys, flues, drying chambers, exhaust pipes, high-temperature hot gas pipes, heating furnaces, heat exchangers, molds, reactors, drying towers, furnace chambers, flight equipment, smelting crucibles, and other non-metallic and metallic surfaces for protective purposes, as well as high-temperature coatings for other applications.