The core of new steel components

In the transformation and upgrading of the modern construction industry, new steel components have become a core element that replaces traditional building materials and improves building quality by virtue of material innovation and performance breakthroughs. Like a "strong skeleton", it gives all types of buildings stronger bearing capacity, longer service life, and higher environmental protection value.

The core competitiveness of new steel components lies in the dual upgrade of materials and processes. Compared with traditional steel, it has achieved a leap in strength, toughness and corrosion resistance through alloy ratio optimization (such as adding elements such as manganese and vanadium) and refined rolling processes: under the same cross-sectional size, the load-bearing capacity of new steel components is increased by 30% The above can support the complex structures of super-high-rise and long-span buildings, such as the column-free space of large-scale exhibition centers and the core frames of super-high-rise office buildings. At the same time, the application of surface nano-anti-corrosion coating technology greatly enhances its rust resistance. Even in harsh environments such as coastal humidity and industrial pollution, the service life can be extended to more than 50 years, far exceeding that of traditional steel.

The diversification of application scenarios is another highlight of the new steel components. It is not only suitable for industrial plants and commercial buildings, but also suitable for prefabricated residences, bridge projects and other fields: In prefabricated buildings, new steel components can be prefabricated in factories in advance, and only bolts are needed on site to increase construction efficiency by 50% and reduce construction waste; in bridge construction, lightweight new steel components can reduce the weight of the bridge and reduce the foundation load. At the same time, they have excellent fatigue resistance and can adapt to high-frequency vibrations caused by long-term vehicle rolling.

Environmentally friendly properties make new steel components fit in with the green building trend. Many green building projects have successfully obtained LEED, Green Building Three-Star and other certifications with the help of new steel components, which not only reduces energy consumption throughout the building's life cycle, but also conveys the concept of sustainable development.

From super-high-rise landmarks to residential buildings, new steel components have the characteristics of "high strength, high adaptability, and high environmental protection" to promote the development of the construction industry in an efficient, green, and safe direction, becoming an important promoter of modern construction innovation.