Features

• Dedicated mechanical structure for multi-tabs electrode forming

• Integrated die-cutting and slitting architecture

• Servo-driven tension control to prevent tab deformation

• Multi-stage rectification for long-run stability

• Dual-side tab forming capability

• Targeted dust collection at cutting and slitting zones

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• Core Advantages vs Laser Cutting Systems

• Compared with laser-based electrode cutting systems, multi-tabs die-cutting machines offer a mechanically stable and cost-efficient solution for standardized electrode designs with limited format variation.

• For projects characterized by long production runs, stable tab geometries, and a small number of electrode models, die-cutting eliminates the need for frequent parameter tuning and format revalidation. Once the tooling is finalized, production changeover time and operational variability are significantly reduced—making die-cutting highly suitable for mature consumer electronics, light EV, and small energy storage applications.

• From a total cost perspective, die-cutting systems typically require lower initial equipment investment and deliver predictable operating costs when model diversity is limited. While laser systems provide superior flexibility for R&D and evolving designs, die-cutting remains the preferred choice where process stability, throughput consistency, and controlled manufacturing cost are the primary objectives.