The bits that keep your bike rolling

By Jack Luke

Published: Wednesday, 09 October 2024 at 11:00 AM


Bearings are often-overlooked components that bring life to your bicycle. You can’t steer, roll, pedal or have a functioning drivetrain without bearings.

Bearings are found in your hubs, bottom bracket, headset, suspension pivots, pedals, shifters… the list goes on.

Basically, anything that moves on your bike will have some kind of bearing in it.

In this guide, we’ll go over the different types of bearings commonly used on a bike, how to measure the bearings on your bike, what makes one bearing better than another and how to maintain bearings.

The different types of bearings used on a bike

Loose ball, caged ball, bushings, needle and cartridge are the main styles of bearing found in cycling frames and components.

Here, we explain how each type of bearing differs from the others.

Bushings

The bushings in this Crankbrothers Stamp pedal are the two black sections on the spindle. David Rome / Immediate Media

A bushing (also known as a bush, or sleeve bearing) is a type of plain bearing used in shock mounts, cheaper pulley wheels and shifters. They’re also sometimes used in pedals, but usually in conjunction with bearings too.

A bushing is the simplest type of bearing and is just a sleeve that sits between two surfaces to reduce friction.

Loose ball bearings (also known as ‘cup and cone’ bearings)

The tried-and-true loose-ball hub designs have lasted decades and make for easily serviceable systems
Tried-and-true loose-ball hub designs have lasted decades and make for easily serviceable systems. Thomas McDaniel / Immediate Media

A loose ball bearing system comprises:

The contact surfaces of the cup and cone are machined to a smooth finish that matches the profile of the bearings, and this is what they run between.

Loose ball bearings are used commonly everywhere on entry-level bikes, including hubs, bottom brackets and headsets.

At the higher end, most brands have moved away from loose ball bearings, although Shimano and Campagnolo are notable holdouts. Both use very high-quality cup and cone bearings in most of their hubs. Shimano also uses loose bearings in its pedals.

Although they’re the oldest, in many ways they can be superior.

Loose ball bearings are angular contact (more on this later), relatively easy to maintain and can perform exceptionally if well-adjusted.

A ball-and-retainer system is similar to a loose-ball setup but makes for less expensive assembly, and are thus favorable on entry-level components
A ball-and-retainer system is similar to a loose-ball setup, but makes for less expensive assembly, and is thus often used on entry-level components. Thomas McDaniel / Immediate Media

Loose ball bearings are sometimes held within a retainer, which is also known as a cage (hence the name ‘caged bearings’).

This is usually made from pressed steel and holds the loose ball bearings apart from one another.

Though often associated with the low end, caged bearings aren’t universally bad – Campagnolo’s CULT bearings, which exhibit excellent performance characteristics, are caged bearings.

Cane Creek’s Hellbender Neo bearings are another interesting take on the concept.

Cartridge bearings

Cartridge bearing in a hub
Cartridge bearings are single-piece units that sit inside a component, in this case a hub.

Cartridge bearings are the most common type of bearing used on anything but the very cheapest bikes.

These are a one-piece unit that is, usually, pressed into a bearing bore.

Exploded diagram of typical cartridge bearing
Niabot / Creative Commons

A typical radial cartridge bearing is made up of:

  1. Outer ring
  2. Outer ring ball race
  3. Ball bearings
  4. A cage/retainer to hold the bearings in place
  5. Inner ring ball race
  6. Inner ring
Removing seal with pick on cartridge bearing
The seals on a cartridge bearing can typically be removed. Scott Windsor / Our Media

Cartridge bearings used on bikes will almost always feature seals too. They will be either single or double sealed (more on that later).

Though the seals can be removed for cleaning and regreasing, these bearings cannot be adjusted or fully disassembled.

Cartridge systems require precision to function well but, as manufacturing technology has moved on, they have become increasingly used as a result of ever-closer tolerances in hub, frame and component bores.

Needle bearings

If you look very closely, you can see a row of needle bearings inside these Speedplay Zero pedals.
If you look very closely, you can see a row of needle bearings inside these Speedplay Zero pedals. Thomas McDaniel / Immediate Media

Needle bearings, which are also known as roller bearings, are relatively uncommon in the cycling world.

The exception is pedals and, very occasionally in headsets, but even then they’ve lost a lot of ground to newer and cheaper tech.

In a needle bearing, instead of ball bearings, the bearings themselves are cylindrical tubes.

Needle bearings in headset
Some brands, such as René Herse, swear by the smoothness offered by roller bearings. René Herse

They can create incredibly smooth-rolling and stable platforms, especially under high loads.

However, in the cycling industry, there’s a tendency to shy away from them due to the expense and complication of creating good mating surfaces. When not mated properly, they tend to fatigue quickly.

Needle bearings often get replaced by multiple rows of cartridge bearings to achieve the same effect.

Bike bearing sizes explained

Loose ball bearing sizes

Pop loose ball bearings straight into a pot, or you’ll lose them
Loose ball bearings come in a huge variety of sizes. Bikeradar

Loose ball-bearing sizes are determined by the diameter of the ball bearing itself. This is usually expressed as a fraction of an inch: 3/16in (4.7625 mm).

The exact size of bearing required will differ between individual components.

It is usually possible to replace the cone in a loose ball-bearing setup, but the cups (particularly in hubs) are less commonly replaceable.

Loose ball bearing on headset crown race
Loose balls can also be replaced on caged bearings. Benedict Pfender / Immediate Media

If you need to replace the ball bearings in a cup and cone bearing, you’ll need to make sure the new bearings are the same diameter as the old ones.

To do this accurately, you’ll need a set of micrometer calipers. Measure a couple of your old ball bearings to make sure you’ve got it right.

Park Tool ruler with ball guage
Tools such as the SBC-1 are useful for workshops. Park Tools

Park Tool and other brands also produce rulers with helpful go/no-go gauges for common bearing sizes.

Alternatively, you should be able to find the specified ball-bearing size in the part manufacturer’s tech guides on its site. Brands using loose bearings tend to stick to the same set of sizes across their ranges.

Cartridge bearing sizes

Cartridge-style bearing have an outside diameter (OD), inside diameter (ID) and width measurements, and sometimes have universal identifiers such as '61902'
Cartridge bearings have an outside diameter (OD), inside diameter (ID) and width measurement, and sometimes have universal identifiers such as ‘61902’. Thomas McDaniel / Immediate Media

A cartridge bearing’s size is determined by its inside diameter (ID), outside diameter (OD) and width.

The measurements take the form of ‘15x24x5mm’ or similar.

They often have a corresponding universal identifier, which in the case of the aforementioned bearing, would be 6802, for instance.

With calipers, you can measure a cartridge, enabling you to find a replacement quite easily.

A little grease goes a long way on those sealed headset bearings. Neglecting them will mean the headache of trying to find a replacement — not always the simplest task
Headset bearings usually have angled races. James Huang / Immediate Media

Headsets pose a unique characteristic in that they have angled races. Their sizing might read more like ‘46.9 x 7 x 45°’ to identify the OD, width and angular measurements of the bearing race, respectively.

Enduro Bearings Maxhit BB30 bottom bracket
Enduro Bearings’ Maxhit bottom brackets use the shell of the bottom bracket as the bearing’s outer race. This enables it to use much larger ball bearings. Jack Luke / Our Media

In regards to performance, generally speaking, the bigger the ball inside the bearing, the better.

Increasing diameter has an exponential factor for increasing contact. More contact means more even distribution of forces, and results in better rolling performance and durability.

Several major wheel manufacturers have pushed towards larger bearings in recent years and there are ever-increasing hub dimensions to show.

Radial vs angular cartridge

Radial and angular contact bearings
A radial bearing is shown on the left and an angular contact bearing on the right. SKF

Two types of cartridge bearings are commonly used in bikes: radial and angular contact.

Radial bearings

Radial bearings are the most common, because they are cheaper.

They’re intended to carry the load in a truly radial direction, which is vertical in terms of hubs, cranks, suspension pivots or derailleur pulleys.

Thus they sacrifice a small amount of performance because forces within these moving parts usually have a non-radial vector associated. As a result, they have to compensate with decreased tolerances.

In short, there’s less precision associated with radial cartridge systems. As such, they don’t have any directional application – there is no inside or outside.

As a benefit, because they are slightly less tolerance-dependent, they can be used in applications that aren’t quite as expensive.

Angular contact bearings

Angular contact bearings require tight tolerances because they are directional. There is an inside and outside component, and they can be compared to the old-style cup-and-cone systems in terms of design.

They support both the radial and side-force loads exerted with the rotating components of a bike, but require extreme tolerances in mating bores to accomplish a precise fit and rolling performance.

For the most part, angular contact is the most appropriate application for hubs, cranks and suspension.

However, many hubs and frames don’t possess mating bores of sufficient tolerances to complement the precision of the angular cartridge.

This precision is where brands such as Industry Nine, Chris King, White Industries, Phil Wood and Alchemy Wheel Works get their reputation.

What makes a bearing high-quality?

You will commonly see bearings referred to as ‘ABEC’ followed by a number (Eg, ABEC 1, 3, 5, 7 and 9).

The ABEC standard qualifies:

In brief, the higher the number, the higher the quality of the bearing. It serves as a rough ‘good, better, best sort’ of metric.

However, the ABEC system forgoes load handling, ball precision or Rockwell Hardness (material hardness).

As a general rule, ABEC 3 and 5 are appropriate for all things bicycle.

As for the 7 and 9 ratings, that level of precision is for equipment that sees rotations in the thousands or hundreds of thousands per minute – a touch of overkill for cycling.

Factors such as sealing, material and grease are far more important determinants of a bearing’s performance on a bike.