Deeply optimized for Amada RG/HFE/M-2000 series press brakes, this solution integrates upper/lower die/quick-change clamping systems, covering the entire process chain requirements, including 90° standard bending, narrow-slot box forming, and indentation-free pressing. It meets the high-precision requirements of aerospace skin forming and satisfies the corrosion-resistant processing needs of marine stainless steel plates, achieving efficient and stable mass production of precision sheet metal parts.
Machine Compatibility: Strictly adheres to Amada interface standards, with an interface error ≤0.02mm. Supports air-blown spring guide sleeves and vacuum lower die quick-installation systems. Compatible with NCT-1000/2000 long-specification dies and Amada CNC-1000/2000 CNC systems, achieving seamless integration with the equipment's backgauge system.
Recommended Material Thickness: V-groove size should be selected based on an empirical range of 6-10 times the plate thickness (e.g., 12-20mm groove for 2mm SPCC cold-rolled sheet, 18-30mm groove for 3mm AL5052 aluminum sheet). Compatible with SPCC/AL/SUS/GA materials, supporting precision machining within a thickness range of 0.5-12mm.
Indentation-Free Solution: Utilizing an R0.5 tip punch combined with a powder-coated high-speed steel lower die, and nitriding treatment to achieve a surface hardness of HRC60-65, protects the aluminum and stainless steel surfaces, reducing the risk of tool marks. An optional local soft lining solution is available, achieving zero-scratch machining through a 0.1mm polyurethane film.
Application Scenarios: Spacecraft cabin skin forming, marine 316L stainless steel sheet bending, mass production of 5G base station sheet metal parts, and new energy vehicle battery box forming.
