Application:
Electronics: Heat spreaders for CPUs, GPUs, and 5G modules
Flexible Devices: Thin, lightweight thermal films for smartphones and wearables
Energy Storage: Thermal management in EV batteries and power modules
Advanced Carbonization Solutions for Thermal Materials
Cxinduction™ specializes in high-performance carbonization and graphitization systems for producing ultra-high-thermal-conductivity PI-derived graphite films (500-1200 W/m·K) and graphene sheets. Our tailored debinding-carbonization-graphitization process ensures optimal performance for:
✔ Polyimide (PI) Films: Transformed into highly ordered graphite films for superior heat dissipation
✔ Graphene Sheets: Enhanced thermal conductivity (1500+ W/m·K) and structural integrity
Key Equipment & Process Advantages
Debinding Carbonization Furnace
Precision pyrolysis at 800-1400℃ for low-defect carbonization
Customized pump systems for different materials (e.g., PI, or graphene precursors)
Tar collection treatment
3000℃ Ultra-High-Temp Graphitization Furnace
Converts carbonized PI into highly crystalline graphite films
Achieves >95% graphitization degree for maximum thermal conductivity
End Applications
Electronics: Heat spreaders for CPUs, GPUs, and 5G modules
Flexible Devices: Thin, lightweight thermal films for smartphones and wearables
Energy Storage: Thermal management in EV batteries and power modules
Why Choose Cxinduction™?
Material-Specific Optimization: Custom pump and atmosphere systems for PI, graphene, etc
Superior Product Quality:
PI-derived graphite films: 800-1200 W/m·K thermal conductivity
Graphene sheets: 1500+ W/m·K with minimal dusting
Faster Processing: 30% reduced cycle time vs. conventional furnaces
Unique Selling Points:
→ Optional from lab-scale to mass production
→ Rich experience for consistent quality
→ Global compliance (ISO, CE, UL standards)
For specific material requirements (e.g., PI or CVD graphene), contact our experts today!
Parameters:
Model | CX-CF40/PI | CX-CF50/PI | CX-CF60/PI | CX-CF60/PI |
Heating Method | Graphite Resistance | |||
Control Method | Auto & MAN | |||
Max Work Temp | 1600℃ | |||
Rated power | 70KW | 85 KW | 120 KW | 160 KW |
Usable Space (mm) W*H*L | 400×400×1200 | 500×500×1500 | 600×600×1800 | 600×600×2000 |
Max. Loading Capacity (L) | 192L | 375L | 648L | 720L |
Temp Uniformity | ±10C (ΔT between 1000C and 2200C) | |||
Max. Heat-up Rate (CEDRT)* | 15℃/min | |||
Ultimate Vacuum (CEDRT)* | 1.2×10-3mbar | |||
Optional High Vacuum (CEDRT)* | 5×10-5mbar | |||
Pressure Rise | 1.33×10-2mbar/hr | |||
Working Atmosphere | Fine Vacuum (Optional) / Vacuum / Inert Gas (Ar or N2) | |||
Supply Voltage | Can be customized | |||
Cooling Water Pressure | 2bar | |||
Cooling water temp | ≤28℃ | |||