Metcal
Metcal UFC-6HF5108S UFC UltraFine Rework Cartridge, Hoof, 0.8 mm x 5.1 mm, 600 Series
Metcal UFC-6HF5108S UFC UltraFine Rework Cartridge, Hoof, 0.8 mm x 5.1 mm, 600 Series
SKU:MET-UFC-6HF5108S
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Metcal UFC-6HF5108S UltraFine Rework Cartridge, Hoof, 600 Series
Precision Rework with Optimized Heat Transfer for Sensitive Electronics
The Metcal UFC-6HF5108S UltraFine Rework Cartridge is engineered for high-precision soldering and rework tasks on heat-sensitive components and densely populated PCBs. Designed for use with the CV-5200 and CV-500 Series soldering systems, this 600 Series cartridge features a 0.8 mm x 5.1 mm hoof tip—ideal for applications that require reliable heat delivery to curved or irregular surfaces, such as drag soldering and touch-up work on surface-mount devices.
Operating at a lower temperature of approximately 330°C, the 600 Series ensures effective thermal control while preventing damage to delicate components, making it a dependable choice for rework professionals and advanced assembly environments.
Technical Specifications
- Manufacturer: Metcal
- Model Number: UFC-6HF5108S
- Series: UltraFine 600 Series
- Tip Geometry: Hoof
- Tip Dimensions: 0.8 mm wide x 5.1 mm long
- Compatible Systems: Metcal CV-5200 and CV-500 Series Soldering Systems
- Operating Temperature: ~330°C (600 Series)
- Application: Rework, drag soldering, SMT touch-up, precision soldering, heat-sensitive components
Key Features
- UltraFine Hoof Tip: Delivers consistent heat to pads and leads, particularly effective for drag soldering and curved joints.
- Low-Temperature Operation: Preserves component integrity on thermally sensitive boards.
- Enhanced Control: Narrow tip profile provides excellent access and visibility for microscope-assisted work.
- Tool-Free Changeover: Cartridge swaps quickly and easily without tools, minimizing downtime.
- RoHS Compliant: Designed for modern, lead-free assembly standards.
Additional Documentation
Choose the Metcal UFC-6HF5108S for accurate, controlled rework on complex electronics, ensuring optimal results with sensitive materials and compact layouts.
