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FAG
B71914-CT-P4S-UM
B71914-CT-P4S-UM
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Delivery time approx. 2-4 working days
Produkteigenschaften
| Material | Bearing steel 100Cr6 (rings & balls) |
| Außenring | smooth |
| Dichtung | open |
| Käfig | Hard cage (phenolic resin) |
| Temperaturbereich | -30 to +100 °C |
| Toleranzklasse | P4S |
| Bohrung | cylindrical |
| Kontaktwinkel | 15 |
| Vorspannung | UM |
Abmessungen
| Innen Ø (mm) | 70 | Außen Ø (mm) | 100 | Breite (mm) | 16 |
FAG B71914-CT-P4S-UM – Precision angular contact ball bearing for stable machining and smooth running
Precision and smooth running are the focus
The FAG B71914-CT-P4S-UM is designed for precision and supports manufacturing tasks where smooth running, speed stability, and consistent results are essential. It addresses applications where precision, smooth running, and process reliability interact and consistently reproducible results are required.
Designed for durability
The high-quality workmanship results in smooth bearing dynamics, contributing to predictable results and efficient machine utilization. This manufacturing quality is evident in daily use: consistent running patterns, quiet operation, and a harmonious power flow within the drive train.
Made for demanding applications
The bearing has proven particularly effective in high-speed spindles of milling, turning, and grinding machines, as well as in demanding precision drives. For operators, this translates into predictable quality, reduced downtime, and economical use of existing resources.
Conclusion
This provides a component that combines precision and process reliability, laying the foundation for reproducible quality.
Precision and smooth running are the focus
The FAG B71914-CT-P4S-UM is designed for precision and supports manufacturing tasks where smooth running, speed stability, and consistent results are essential. It addresses applications where precision, smooth running, and process reliability interact and consistently reproducible results are required.
Designed for durability
The high-quality workmanship results in smooth bearing dynamics, contributing to predictable results and efficient machine utilization. This manufacturing quality is evident in daily use: consistent running patterns, quiet operation, and a harmonious power flow within the drive train.
Made for demanding applications
The bearing has proven particularly effective in high-speed spindles of milling, turning, and grinding machines, as well as in demanding precision drives. For operators, this translates into predictable quality, reduced downtime, and economical use of existing resources.
Conclusion
This provides a component that combines precision and process reliability, laying the foundation for reproducible quality.
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