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Ceramic bearings provide long life

Edited by the Engineeringtalk editorial team Aug 10, 2007

Micromech's ceramic bearings are nonmagnetic and have reduced friction, as well as retaining their stiffness and operating at higher temperatures.

After more than 20 years of research and testing PM Bearings hasproved that ceramic linear bearings maintain longer and more reliable performance.

Now available from Micromech, these bearings are nonmagnetic, have reduced friction, retain their stiffness and operate at higher temperatures.

On top of that they have an exceptional life span but require little or no lubrication.

For many years ceramic bearings have been well accepted in demanding ball bearing applications being superior to steel for density and hardness.

Because of the nonmagnetic properties ceramic is an ideal material for use in nonmagnetic or ultra-high vacuum environment.

PM Bearings can now supply high-precision positioning stages to operate under extreme environments.

The bearings are very lightweight as the ceramics density is about 40%-60% that of traditional bearing steel DIN 1.3505.

Because force is directly proportional to mass, the low-density silicon nitride used significantly reduces the starting force which is required to move the slide/stage.

This enhances operations in high dynamic applications where the reduction of the mass-moment of inertia is an ongoing issue.

High rigidity is achieved because ceramic ways and balls (silicon nitride and alumina) have a Youngs Modulus which is about 50% higher than steel, making them an ideal linear bearing material.

These are the qualities needed for use in high-speed x-y stages as for wirebonding machines in the semi-conductor industry where rigidity and precision at high speed are required.

The lifespan of a linear bearings is directly related to hardness, the most critical mechanical property of a bearing material.

With an impressive Rockwell C 78 - hardness, these bearings are twice as hard as many bearing steels.

They also have a high compressive strength of about five to seven times that of steel therefore silicon nitride improves wear resistance, minimising the damaging effects of repeated surface contacts.

The mechanical properties of ceramic bearings do not change in extremely low (cryogenic) or extremely high temperatures, which makes it very suitable for use as a heat resistant material.

A major problem caused by such high -temperatures is lubrication as oil and grease can normally be used in temperatures of up to 300C.

When temperatures are higher, only solid lubricants can be used, but even then, they can only be used for temperatures up to 500C.

However ceramic bearings can operate at temperatures up to 800C, exceeding the best high-temperature bearing steels by a factor of three.

Other characteristics such as vacuum compatibility show they exhibit less particle generation than stainless steel in both air and vacuum.

As ceramics are extremely hard and have outstanding wear resistance they outperform most other materials in bearing life, without lubrication.

Tests showed that the rollers in steel linear bearings exhibited flaking and a loss pre-load was observed after only 40% of the calculated life while the ceramic linear bearings were still operating after twice the life-span of steel.

Inspection of the rails and rolling elements revealed no wear was found and the accuracy of travel was still the same.

The test confirmed that the life without lubrication is dramatically longer for ceramic linear bearings than for steel.

Currently there are no standards published by ISO or JIS regarding the static and dynamic load ratings of ceramic linear bearings but PM engineers are studying the static load ratings of ceramic bearings in which Si3n4 rolling elements are used.

Based on material testing they are working on the assumption that the load ratings of ceramic beings will have the same values as for the conventional steel ones based on the fracture load of silicon nitride rolling elements.

Ceramic bearings are presenting many exciting opportunities for designers of spectroscopy, lithography, wirebonding and x-ray machines to take their equipment to higher levels of performance.

Due to their relative magnetic permeability at less than 1.001 they are well suited to operate in magnetic fields such as electron beams.

Ceramic linear bearings and slides are manufactured on a made-to-order basis.

In this way the ceramic bearing specifications can be matched with the customer's system to meet their exacting requirements of speed, operating temperature and accuracy.