For steel structure brackets, appropriate carbon structural steel or low-alloy high-strength steel is selected in accordance with design requirements. The steel undergoes cutting, straightening, and rust removal treatments to ensure precise dimensions, a smooth surface finish, and compliance with mechanical performance standards. For brackets intended for outdoor use or deployment in special environments, the steel surface also undergoes anti-corrosion treatment-such as hot-dip galvanizing or epoxy coating.
The process continues with component fabrication and assembly. Columns, beams, and diagonal braces are shaped to the specified design dimensions through processes such as punching, bending, welding, or CNC cutting. Upon completion of fabrication, a preliminary assembly is conducted in accordance with the design drawings; bolts, welding, or adjustable joints are utilized to connect the individual components into a complete bracket framework, thereby ensuring geometric precision and structural stability among the components. The assembled brackets then undergo mechanical performance testing, dimensional accuracy verification, and anti-corrosion coating inspections to ensure full compliance with both design specifications and industry standards. Once successfully inspected and approved, the brackets are packaged and labeled to facilitate efficient transportation, handling, and on-site installation, while simultaneously ensuring they remain undamaged during transit.
