Bearing types at a glance

Bearing types at a glance

Ball Bearings

Ball Bearings utilize balls as the rolling elements. They are characterised by point contact between the balls and the raceways. As a rule, ball bearings rotate very quickly but cannot support substantial loads.

  Deep-Groove Ball Bearings

Angular Contact Ball Bearings

Self-Aligning Ball Bearings

Thrust Ball Bearings

Roller Bearings

Roller Bearings are characterized by line contact. Line contact offers a higher load rating than ball bearings of the same size; however, the speed ability is lower than a ball-bearing due to the increased friction of a contact line.

Spherical Roller Bearings.

Cylindrical Roller Bearings

Tapered Roller Bearings

Needle Roller Bearings

What is Bearing

Today, bearings are one of the most commonly used machine components because their rolling motion makes almost all movements easier while reducing friction. Bearings have two key functions:

  • Transfer motion, i.e. they support and guide components which turn relative to one another
  • Transmit forces
  • Rolling bearings and sleeve bearings
    In a sleeve or plain bearing, the axle and the bearing move in opposite directions on a sliding surface. By contrast, the two components of a rolling bearing that move towards one another – the inner and outer rings – are separated by rolling elements. This design generates significantly less friction than a sleeve bearing.Radial bearings and axial bearings
    Bearings can transmit loads in a radial direction or an axial direction (thrust) and in many cases, there is a combination of both radial and axial loads to transmit.Both designs are available as ball bearings or roller bearings. The choice of bearing design depends upon the application in question.
  •        Radial Bearing.                               Axial Bearing
  • Components

    Bearings typically consists of the following components:

    • Two rings, inner and outer,  with raceways 
    • Rolling elements – rollers or balls
    • cage which keeps the rolling elements separated and helps guide motion

    Inner Ring / Outer Ring

    The inner and outer ring are typically made from a high-purity, chrome alloy steel. This material has the necessary hardness and purity important factors for high load ratings and long service life.

    The raceways are hardened, ground and honed.

    Special materials such as ceramic and plastics are also produced. Although plastics cannot withstand extremely high temperatures, they are considerably lighter than steel which makes them invaluable in sectors such as the automotive industry, where every ounce matters.

     Inner Ring.                                                 

    Outer Ring

    Rolling Elements

    Rolling elements can be ballsrollersconesspheres or needles. They are usually made from a special high-purity, chrome alloy steel. Special materials such as ceramic and plastics can also be produced.

    The rolling elements roll on the raceways of the rings and are separated and guided by the cage.


    The cage is responsible for keeping the rolling elements separated while guiding them in motion. The materials used include steelbrass and plastic. Solid metal cages can be produced using machining techniques, while pressed cages are made from sheet metal. Similarly, plastic cages can be machined from solid plastic or injection moulded.