In precision manufacturing, robotic cutting technology is widely applied for processing complex 3D workpieces due to its high flexibility and intelligent capabilities. Particularly in built-in follow-up band small-circle cutting applications, robotic systems deliver efficient and precise cutting performance through the following features:
High-precision 3D follow-up cutting
Equipped with highly sensitive sensors and adaptive control systems, the robot tracks workpiece surface trajectories in real time and dynamically adjusts cutting paths, ensuring dimensional accuracy (±0.1mm) and smooth edges for small-circle cuts—ideal for intricate built-in structures.
Flexible machining capabilities
With multi-axis coordination technology, the robot freely adjusts cutting angles to perform small-circle cuts in confined spaces or on complex curved surfaces—challenging for traditional equipment. This makes it especially suitable for pipes, automotive components, and other built-in follow-up band structures.
Intelligent process integration
Supports offline programming and vision positioning for quick adaptation to different workpiece models. Compatible with laser or plasma cutting heads for contactless processing, reducing material deformation and improving efficiency (over 30% faster per-piece processing).
Stable and reliable production assurance
Incorporates anti-collision design and real-time quality monitoring, ensuring stability during prolonged continuous operation while minimizing defect rates—perfect for high-volume production.
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Plasma Cutting: Utilizing a jet of plasma, this method is ideal for cutting metals with complex geometries. Plasma cutting offers high speed and efficiency, making it suitable for thick and hard materials.
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Laser Cutting: This technique uses a laser beam for precise cutting of various materials, including metals, plastics, and composites. It offers high speed and accuracy, making it ideal for intricate designs.
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Waterjet Cutting: Employing a high-pressure stream of water mixed with abrasive materials, waterjet cutting is perfect for a wide range of materials, including metal, stone, and glass.
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Mechanical Cutting: Involves using mechanical tools like saws and milling machines, applicable to a wide range of materials and industries.
