Precision Sealed Angular Contact Bearings (Single)
CSC super precision angular contact ball bearings (spindle bearings) are designed for highest accuracy applications, lowest noise-level and
low-vibration. Due to the angular contact design they can take high axial forces from one direction as well as radial forces and can be installed
in bearing arrangements to withstand axial forces from both sides.
CSC spindle bearings are available with three different contact angles:
C = 15° for higher radial loads
D = 18° for higher radial loads
E = 25° for higher axial loads
These precision bearings are universally ground and can be assembled together in numerous arrangements depending on your applications requirements. Sets in duplex (2), triplex (3), quadruplex (4) can be arranged of back to back, face to face to back to back + tandem, quad tandem and many more variations to suit your needs.
What are super precision bearings and what sets them apart?
Super precision bearings are special parts that make machines spin extremely smoothly and accurately. They're designed to be very precise, have very little wiggle room and are great at running fast. This makes them perfect for when you need things to be exact.
Where would I find super precision bearings being used?
You'll find these types of bearings in machines that need a whole lot of precision. They're often used in high-speed medical equipment, very accurate machines in factories, or even in the spindles of your computer's hard drive.
How can I tell if my super precision bearings need replacing?
If your machine starts to vibrate more than normal, struggle to spin as fast, or make unusual noises, these may be signs that your bearings need to be replaced. Make sure to regularly keep an eye on them to avoid letting issues escalate.
Can I replace super precision bearings on my own or should I hire a professional?
Since super precision bearings are used in machines that need a lot of accuracy, it's generally a good idea to have a professional replace them. If you’re not confident with the task, it's safer and could be more efficient to leave it to the experts.
