Carbon Fiber Stranding Bow
Carbon Fiber Stranding Bow is a core component of advanced stranding equipment manufactured from high-strength carbon fiber composites, specifically designed for ultra-high-speed and high-precision stranding processes. By combining the lightweight properties of carbon fiber with exceptional mechanical performance, it significantly enhances the dynamic response capability and energy efficiency of stranding machines.
Core Advantages
Lightweight: Density of 1.5-1.8 g/cm³ (only 20% of steel), reducing weight by 60-70% compared to traditional metal stranding bows;
High Rigidity: Elastic modulus of 200-300 GPa, increasing bending stiffness by 40%;
Zero Magnetic Hysteresis Loss: Completely non-magnetic, eliminating electromagnetic interference;
Dynamic Response: Critical rotation speed improved by 2-3 times, making it more suitable for ultra-high-speed stranding at 2000+ rpm.
Carbon Fiber Stranding Bow Datasheet
| Model |
Size |
Customizable |
| Carbon Fiber Stranding Bow |
1100x30x2 mm
1200x30x2 mm |
Support |
Carbon Fiber Stranding Bow Application
Carbon Fiber Stranding Bow is a core component of advanced wire stranding equipment manufactured from high-strength carbon fiber composites, specifically designed for ultra-high-speed and high-precision stranding processes. Leveraging the lightweight characteristics and exceptional mechanical properties of carbon fiber, it is primarily used in the following applications:
Aerospace Cables
Application: Lightweight aircraft wiring harnesses, satellite cable stranding;
Case Study: Reduced weight by 1.2kg/100m for a specific UAV wiring harness.
High-End Medical Leads
Application: Cardiac pacemaker leads, neural electrode bundle stranding;
Advantage: MRI compatibility (no metal artifacts).
Superconducting Cables
Application: Stranding of superconducting cable cores for ITER project;
Special Design: Maintains dimensional stability in -269°C liquid helium environment.
New Energy Vehicles
Application: Precision stranding of 800V high-voltage wiring harnesses;
Benefit: 15% reduction in energy consumption (due to reduced inertia).
