In high-speed, high-stability CNC machining environments, the choice of clamping system directly impacts both safety and efficiency. The CHANDOX NT Series 3-Jaw Steel Body Chuck features a precision serrations engagement structure and a rigid steel housing, delivering exceptional clamping flexibility and structural strength. This enhances fixture versatility and operational efficiency across a wide range of machining applications.
1. High-Rigidity Steel Body | Built for High-Speed, Heavy-Duty Cutting
The robust steel housing ensures outstanding rigidity, maintaining stable clamping even under high-speed rotation. This minimizes mechanical wear and reduces fracture risk—boosting safety and extending machine lifespan.
2. Modular Jaw Design | Highly Versatile
The NT Series supports both soft and hard jaws compatible with CNC hydraulic chucks, enabling fixture resource sharing, reducing inventory requirements, and lowering changeover costs—ideal for multi-machine and multi-product manufacturing environments.
3. Adjustable Jaw Depth | Extended Clamping Range
The jaw positions can be adjusted forward or backward to match different workpiece sizes. A single chuck can cover a wider machining range—perfect for fast changeovers in customized or small-batch production workflows.
4. Optimized Manual Operation | Safer and Easier to Use
Less torque is required when turning the wrench, making operation smoother, easier, and safer.
5. Dedicated Two-Jaw Version | Strong Clamping for Asymmetric Workpieces
For heavy-duty or irregular workpieces, the NT Series also includes a two-jaw high-force version, engineered specifically for unbalanced loads and eccentric clamping.
🔍 Applications
- High-speed precision machining on CNC lathes
- Standardized integration for automated fixtures
- Flexible manufacturing for multi-product, small-batch operations
- Heavy-duty cutting and high-load clamping (with two-jaw version)
📈 Key Benefits
- Improved changeover efficiency and optimized clamping resource utilization
- Enhanced machining safety and stability during high-speed operation
- Reduced operator workload, increasing productivity and operational yield