Introduction of  Nitride bonded silicon carbide Burner Nozzle:               

Nitride bonded silicon carbide flame nozzle is a high performance ceramic material, Silicon nitride bonded silicon carbide products are commonly used in burners and heat treatment equipment in high temperature industrial applications. This Nitride bonded silicon carbide Burner Nozzle combines the advantages of silicon nitride and silicon carbide and has excellent high temperature resistance, corrosion resistance and wear resistance.

Advantages of Nitride Bonded Silicon Carbide Burner Nozzle:

This Nitride bonded silicon carbide flame nozzle is suitable for gas or oil-fired industrial furnaces (such as sanitary ware, daily ceramics, ceramic tiles, bricks, technical ceramics and other industrial kilns).

Our Silicon nitride bonded silicon carbide products have good shape stability, it has high oxidation resistance and corrosion resistance.

This Nsic Nozzle has extremely high thermal conductivity, and it also has high thermal shock resistance.

Applications of Nitride bonded silicon carbide flame nozzle

Silicon nitride-bonded silicon carbide burners are transforming combustion technologies in industries requiring ultra-high temperatures and corrosion resistance. Combining the toughness of silicon carbide with the thermal stability of silicon nitride, these burners excel in environments exceeding 1,500°C, outperforming traditional metallic or oxide ceramic counterparts.

In steelmaking and foundries, Si₃N₄-SiC burners ensure precise flame control and fuel efficiency in reheating furnaces, while resisting oxidation and slag erosion. Their low thermal expansion minimizes cracking under rapid thermal cycling, critical for continuous operations. In glass manufacturing, they withstand molten glass vapors and alkali-rich atmospheres, extending service life by up to 300% compared to alumina-based burners.

The chemical industry benefits from their resistance to acidic flue gases, enabling reliable performance in waste incineration and pyrolysis processes. Additionally, their lightweight design reduces structural load in burner systems, enhancing energy efficiency.

Si₃N₄-SiC burners also reduce emissions by enabling leaner fuel mixtures and stable combustion, aligning with sustainability goals. With minimal maintenance and prolonged durability, they lower operational costs while boosting productivity. As industries seek advanced materials for extreme environments, Si₃N₄-SiC burners are becoming a cornerstone of modern, high-performance thermal systems.

About us

The company has been committed to research and development and innovation for many years. Relying on the leading silicon carbide manufacturing technology and experience of Shenyang Starlight Advanced Ceramics Co., Ltd., it has been developed by well-known universities and institutes.

Led by high-end talents, and at the same time introducing a large number of outstanding college graduates to form a first-class R&D team, a new silicon carbide industry technology research institute was established at the end of 2021.

We are committed to the research and development of high-end high-purity silicon carbide raw materials and high-purity silicon carbide products, laying a solid foundation for the company's long-term development.