A breakthrough in low-carbon technology for metal materials

With the global industrial upgrading and the surging demand for sustainable development, the metal materials industry is undergoing an innovative revolution centered on "high performance, lightweight and environmental protection". As a leading supplier of metal materials in the industry, we were the first to introduce six innovative solutions to help fields such as construction, automobiles, new energy, and home appliances break through traditional limitations and move towards an efficient and low-carbon future.

1.Intelligent coating technology: A breakthrough in the durability of Galvalume and Aluzinc steel
Traditional Galvanized Steel is prone to corrosion, while our new generation of Galvalume and Aluzinc steel, through nano-composite coating technology, enhances corrosion resistance by over 50% and has a service life of up to 30 years. More innovatively, the smart microcapsules embedded in the coating can automatically release repair components after scratches, significantly reducing maintenance costs and making it an ideal choice for photovoltaic brackets and coastal buildings.

2. Ultra-lightweight aluminum alloy: Revolutionizing automotive and aviation design
Through the Liquid Metal Forming (LMF) process, the high-strength aluminum alloy coils/tubes/plates we developed are 30% lighter than traditional materials while increasing their strength by 20%. The integrated battery tray launched in collaboration with new energy vehicle manufacturers not only reduces energy consumption but also optimizes battery heat dissipation efficiency through embedded thermal management design, promoting the lightweighting process in the industry.

3. Green pre-coated Steel plates: Zero-carbon practices from production to application
Traditional coating processes are highly polluting and energy-consuming. In contrast, our Prepainted Steel uses water-based UV-cured coatings and an AI color-matching system, achieving zero VOC emissions and supporting customized patterns. What is more worth mentioning is that its surface is covered with a photocatalytic self-cleaning layer, which can decompose pollutants through sunlight and significantly reduce the cleaning frequency of building curtain walls.

4. Digital Twin of Stainless Steel: Precise Prediction of Material Lifespan
In response to the high demands for stainless steel in the chemical and medical industries, we have introduced a blockchain + Internet of Things traceability system, allowing the composition and process parameters of each batch of materials to be traced. By integrating digital twin models, customers can simulate the performance of materials in extreme environments, plan replacement cycles in advance, and reduce unexpected downtime losses.

5. Recycled metal closed loop: An upgrade from waste to high-end products
Through hydrogen-based direct reduced iron (DRI) technology, we have increased the recovery rate of scrap steel and aluminum shavings to 98%, and produced recycled stainless steel and aluminum materials with properties no different from those of primary materials. This technology has been applied in zero-carbon factories in Europe, reducing carbon emissions by 200,000 tons annually.

Future Outlook
From intelligent self-healing coatings to zero-carbon production chains, the innovation of metal materials has tranved the optimization of single performance and instead built a full-ecological solution of materials- design-service. We look forward to collaborating with global partners to promote sustainable industrial development through technological innovation.