Machine Tool Spindle Bearings: A Blast to the Future

The picture shows a robotic arm full of machine tool spindle bearings.

We’ve put together a series of informational articles to highlight bearing types, terminology, and components. In this segment of Bearings 101, we focus on machine tool spindle bearings.

In this complex universe, there are profound questions with answers that elude us. Why do we exist? Are there other worlds beyond ours? What are machine tool spindle bearings and how do we use them? The first two questions require theoretical research, footnotes, and stuff like that. We can discuss the third question in this article. 

Early machine tool spindles

Lathes and looms were two of the first machines. Early versions only produced one thing at a time. Every time the operator used the machine, the product came out a little bit differently. That worked when the products were not tools that had to fit into a larger tool. Later, the advent of interchangeable parts meant machine tools had to make multiple items that worked together seamlessly. That required a higher level of precision. These more modern machines had to make a large volume of products quickly and exactly. 

Today’s machine tool spindles work in large, robot-filled factories and small, family-owned machine shops. The places may seem different, but both types of businesses have at least one thing in common — bearings. 

The picture is of a tool used for milling that uses machine tool spindle bearings.

Additive manufacturing, CNC (Computer Numerical Control) machining, routers, lathes, mills, and various grinders and cutters rely on machine tool spindle bearings. More accurately, they rely on high quality machine tool spindle bearings. The spindles in these machines need to maintain speed, shaft position, and running efficiency while in almost constant use. Any variation could ruin the item being machined or the tool itself. 

Spindle bearing types

Spindle bearings fall into four main categories: angular contact, radial or deep-groove, roller, and thrust ball bearings. 

Angular contact ball bearings

In these bearings, grooved rings hold at least one row of balls. They carry both axial and radial loads. Angular contact bearings are ideal for machines that rotate or vibrate at high speeds or operate in harsh environments. 

Radial or deep-groove bearings

These bearings have a deep groove (yup) between inner and outer rings, with rolling balls in the middle. Find these bearings in industrial settings in many applications. 

Roller bearings

Roller bearings use cylinders instead of balls, reducing friction in moderate to high-speed applications. They support radial and some axial loads. 

Thrust ball bearings

Thrust ball bearings can use balls, rollers, or needles as their rolling components. They can withstand harsh environments and maintain high speeds. The aerospace, marine, and automotive industries all use thrust bearings. 

Machine tool spindles were a part of early manufacturing. Now, technological advances have made them a part of cutting-edge industries that demand efficiency, precision, and the right bearings. 

Curious about our other Bearings 101 articles? Here’s our bearing glossary to end all bearing glossaries. Here, we discuss the difference between bearings and bushings. And we cover deep-groove bearings in another piece. 

If there’s any bearing-related subject you’d like us to write about, or if you have questions, please contact a sales engineer by phone, email, or the chat.  

Photo credits:

ABB Assembly Line Robot” by avramc is marked with CC BY-NC-SA 2.0.

Using the metalwork lathe, turning down, taper turning, drilling, knurling and threading using taps and dies.” by Jordanhill School D&T Dept is marked with CC BY 2.0.