To further improve the processing precision, production efficiency and quality stability of shock absorber products, LEACREE continues to increase investment in the production end and introduces more advanced laser cutting, laser welding and CNC machine tools, the three core production equipment. We empower manufacturing upgrading with advanced technology and safeguard every bit of product trust with strict standards, providing more reliable automotive shock absorber solutions for global customers.
Laser Cutting: Precision Cutting to Lay a Solid Foundation for Products
Laser cutting technology uses high-energy-density laser beams as the “cutting tool” to achieve high-precision cutting of metal components of shock absorbers. Its cutting precision far exceeds that of traditional cutting processes, which can perfectly meet the processing requirements of complex special-shaped components and ensure the dimensional consistency and fit of each cut part.
Meanwhile, the laser cutting process has a minimal heat-affected zone, which can effectively avoid deformation and oxidation of metal materials, maximize the retention of the original mechanical properties of the materials, and lay a solid foundation for the structural strength and durability of shock absorbers. Whether it is carbon steel, alloy steel or other core materials, it can achieve efficient and clean cutting, helping to improve production efficiency by more than 30%.
Laser Welding: Seamless Joints to Strengthen Structural Stability
To meet the connection requirements of key components of shock absorbers, LEACREE has introduced high-precision laser welding equipment, and improved the structural stability of products with the "seamless joint" standard. Laser welding features concentrated energy, narrow and deep weld seams, and the strength of welded joints is comparable to that of the base metal, which can effectively avoid defects such as air holes, cracks and incomplete welding that may occur in traditional welding.
The whole welding process is automatically controlled with precise positioning and controllable parameters, ensuring the consistency and reliability of each weld seam. This enables shock absorbers to maintain structural stability even under long-term bumpy and high-pressure working conditions, greatly reducing the risk of failure during use. In addition, no additional grinding is required after welding, which reduces process loss and balances production efficiency with product appearance.