How to choose a bearing based on load, speed and duty cycle

Choosing the right bearing is a crucial decision to ensure performance, lifetime and reliability in mechanical systems. This article illustrates the main types of bearings, their structural and functional differences, and the technical criteria to consider when selecting the most suitable solution for your application.

Whenever a shaft needs to rotate relative to a support, a bearing comes into play. It is an essential component that allows turning by reducing friction while supporting the load.

There are different types of bearings:

• Ball bearings
• Roller bearings
• Tapered roller bearings
• Needle bearings

The difference between rollers and needles lies in their size: in needle bearings, the ratio between the needle’s length and diameter is greater than 3.

Another important difference concerns the presence of a cage. Bearings with cages can compensate for minor misalignments and operate well at high speeds; those without cages, on the other hand, are less tolerant of mounting errors but can withstand higher loads.

Nadella has been a pioneer in the development of needle bearings since 1930, the year it was founded. The name itself derives from the German term “Nadellager”, which means “needle bearing”.

Today, the Nadella range, an integral part of the Rollon portfolio, offers a wide variety of technical solutions:

• Needle cages, which retain the needles both inward and outward and allow high-speed rotation.
• Needle bushes, consisting of a thin, heat-treated outer ring, with or without a cage, capable of supporting high loads while occupying minimal radial space.
• Needle bearings, with a hardened steel outer ring, available either with a cage or in a full-complement version.
• Thrust bearings, in needle (AX) or roller (AR) versions, ideal for high axial loads in confined spaces.
• Combined bearings, which integrate a needle cage and a thrust bearing into a single compact component, suitable for supporting both radial and axial loads.

Selecting the correct bearing depends on a combination of operating and environmental parameters. Let’s take a closer look at these.

Rotation speed and load

The first aspect to consider is rotation speed. In general, ball bearings are more suitable for high speeds, while needle bearings can withstand higher loads, but operate at lower speeds.

The presence of the cage also makes a difference:

• with a cage, load capacity decreases but allowable speed increases;without a cage, there are more needles and therefore greater load capacity, but also more friction and lower speed.

Load direction

Another key parameter is the direction of the forces involved.

It is necessary to understand whether the load is radial (perpendicular to the shaft axis) or axial (parallel to the axis). For example, the AX bearings in the Nadella range are designed for axial loads only. RAX combined bearings, on the other hand, handle both radial and axial loads, offering a versatile solution in a single component.

Space requirements

When installation space is limited, a needle bearing is almost always the ideal choice. Its slim profile and high load capacity make it suitable for applications where space is at a premium.

Work cycle and type of movement

The lifetime and reliability of the bearing depend greatly on the operating cycle: how many rotations per minute, whether the load varies or remains constant, and the required service life, all of which influence correct bearing sizing.

Generally, needle bearings can operate with full or partial rotations but are not suitable for swivelling angles of only a few degrees. In these cases, the same needles would always be subjected to the motion, leading to localised and premature wear.

Materials

Most bearings are made of bearing steel, but the real difference lies in the material of the support on which they are mounted.

There are bearings with or without an inner or outer ring, and even cages with only needles. This configuration results in direct contact between the needle and the machine surfaces, which must feature adequate hardness and surface finish (e.g. grinding). If the correct material is not specified, there is a risk of reducing both the lifetime and load capacity of the bearing.

Lubrication and working temperature

Good lubrication is essential for the bearing’s lifetime. Greases or oils can be used, preferably with EP (Extreme Pressure) additives, which improve resistance to high contact pressures.

The choice of lubricant is also linked to the working temperature:

• versions with rubber seals (generally ball bearings) retain grease better, but operate at temperatures up to approximately 120 °C.
• all-metal bearings can reach higher temperatures, provided that specific high-temperature lubricants are used.

Finally, it should be noted that in needle bearings, contact is linear (rather than point contact as in ball bearings): this generates more friction and heat, making lubrication even more important.

Connect with Rollon Group

Choosing the right bearing is not just about finding a compatible component: it means optimising the entire system in terms of efficiency, durability and accuracy.

Thanks to Nadella’s experience and historical know-how, Rollon Group offers a robust technical portfolio capable of meeting many mechanical and environmental requirements.

If you would like to find out more about which solution is best suited to your application, contact us: our technical team is ready to assist you in choosing the most suitable bearing.