Recently, the special high-strength seismic resistant rebar and H-beam produced and supplied by Sanhe Steel Company have successfully passed the third-party strict inspection on the construction site and been officially delivered to a national key bridge construction project site. Multiple core mechanical performance indicators of the first batch of delivered products have exceeded industry established standards.
Infrastructure construction, such as bridges, tunnels, and high-rise buildings, has extremely high requirements for the yield strength, fatigue resistance, and corrosion resistance of steel. As the core supplier of building steel for this project, the technical team of Sanhe Steel Company has customized and developed high-performance anti-corrosion and seismic resistant steel for the rainy and humid environment of the project.
In the production process, the company adopts a full process refining technology to strictly control the impurities such as sulfur and phosphorus in the molten steel, ensuring that this batch of high-strength special steel can withstand high loads and extreme environmental tests.
The timely delivery of bulk construction materials directly affects the construction progress of the project. Sanhe Steel Company has established a specialized logistics dispatch center for this key project, implementing digital full process tracking from order issuance, production scheduling to outbound transportation flow.
With efficient production capacity scheduling and a mature land and water transportation linkage network, the company has achieved "production and sales integration, immediate production and delivery", winning high praise from the engineering general contractor.
This successful delivery not only validates the company's supply capability in large-scale, high standard engineering projects, but also further consolidates Sanhe Steel's competitive advantage in the wholesale market for heavy-duty bridge construction steel and engineering steel. The company will continue to use this type of high standard project as a model to serve more global infrastructure projects.
