As an indispensable protective and supporting material in the fields of construction, agriculture, industry, etc., the performance of high-strength welded mesh directly depends on the matching degree between material selection and welding process.
Material selection is the basis. High-quality high-strength welded mesh usually uses low-carbon steel wire, galvanized steel wire or stainless steel wire as raw materials. Low-carbon steel wire is low-cost and has good processing performance, which is suitable for ordinary protection scenarios; galvanized steel wire is treated by hot-dip galvanizing or electro-galvanizing to significantly improve corrosion resistance, which is suitable for humid or outdoor environments; and stainless steel wire (such as 304, 316 models) has excellent corrosion resistance and high temperature resistance, and is often used in extreme environments such as chemical industry and ocean. When selecting materials, it is necessary to comprehensively consider the load-bearing requirements, environmental corrosion and cost budget of the use scenario.
Welding process is the key. The core of high-strength welded mesh lies in the strength of the weld point, and automated welding equipment is required to ensure that the weld point is uniform and firm. Resistance welding technology melts metal at high temperature through electric current to form high-strength welds, which are suitable for mass production; while gas shielded welding or laser welding can further improve the accuracy of welds to meet special specifications. In addition, the heat treatment process after welding (such as annealing) can eliminate internal stress, avoid material embrittlement, and extend service life.
The coordinated optimization of materials and processes is the core logic of creating high-strength welded mesh. Only by accurately matching material properties and welding parameters can the balance between performance and cost be achieved, providing reliable solutions for various industries.
Post time: Apr-22-2025