Recently, Baowu Low Carbon Center organized a review meeting for the Low Carbon Metallurgical Technology Innovation Fund project in Shanghai, and conducted an acceptance of the completion of the "Research on the Damage Mechanism of Refractory Materials for High Temperature Hydrogen Metallurgy Equipment" project undertaken by China Steel Luoyang Institute.

The attending experts listened to the project report, reviewed relevant materials, and after questioning and discussion, believed that the project had met the assessment indicators and unanimously agreed to pass the acceptance.

It is reported that the project has successfully built the world's first experimental evaluation platform for simulating the service behavior of refractory materials in the field of hydrogen metallurgy, and established corresponding evaluation methods; Through thermodynamic calculations and high-temperature simulation experiments, the erosion mechanisms of refractory materials of various types and materials under different atmospheric environments were thoroughly elucidated; Innovatively developed a series of refractory material products with high corrosion resistance characteristics, designed refractory lining structures for various hydrogen metallurgy process units, and thus formed a complete integrated application technology system. The research results have been promoted and applied in many domestic steel enterprises.

In recent years, Sinosteel Luonai has always adhered to technology leadership, strengthened innovation driven development, and accelerated the green and low-carbon transformation and development of the enterprise. In the future, Sinosteel Luonai will take this project as an opportunity to focus on the demand for high-temperature new materials industry, strengthen scientific research and provide high-quality, low-carbon, green, and long-life refractory materials, serve the green and low-carbon development of the steel industry, and promote high-quality development of the enterprise through key core technology innovation.