The Leybold TURBOVAC SL 80 H DN 63 ISO-K turbomolecular vacuum pump features mechanical rotor suspension with ceramic ball bearings, delivering reliable high vacuum performance in the pressure range from 10-1 mbar to 10-10 mbar. Compact and robust, it is designed for various high and ultra-high vacuum applications requiring pumping speeds up to 80 l/s for air.
Product Features
- Mechanical rotor suspension with reliable ceramic ball bearings
- Pumping speed of 80 l/s for air
- Operating pressure range from 10-1 mbar to 10-10 mbar
- DN 63 ISO-K flange and DN 16 KF inlet connections
- Compact and space-saving design
- Suitable for high and ultrahigh vacuum applications
- Robust construction for long-term reliable operation
- Low maintenance requirements
High Vacuum Pumps
Leybold offers a broad range of high and ultra-high vacuum pumps, including TURBOVAC and MAG turbomolecular pumps, DIP diffusion pumps, and COOLVAC cryo pumps. Selection depends on criteria such as ultimate pressure, pumping speed, gas throughput, and compression.
TURBOVAC / TURBOVAC MAG – Turbomolecular Pumps
Leybold’s TURBOVAC line features pumps with mechanical rotor suspension, TURBOVAC MAG line offers magnetic rotor suspension, and TURBOVAC i Series combines hybrid rotor suspension. Each product line includes classic and compound stage pumps compatible with smaller backing pumps.
TURBOVAC Mechanical Rotor Suspension
The TURBOVAC pumps with mechanical rotor suspension cover a wide pressure range and deliver pumping speeds from 35 l/s up to 2400 l/s. Their compact design and ceramic ball bearings provide reliable and simple operation for demanding vacuum applications.
Benefits
- Reliable, maintenance-friendly mechanical rotor suspension
- Compact design saves installation space
- Wide operating pressure range for versatile applications
- Long service life due to robust construction
- Low operational noise and vibration
Why Choose the Leybold TURBOVAC SL 80 H?
This pump combines reliable mechanical suspension technology with compactness and versatility, making it ideal for many high vacuum and ultrahigh vacuum processes.
