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iglide® Q: able to withstand high loads, even when subjected to the strain of tumbling

The customer uses lubricated brass bearings that run on customer's steel shafts (Figure 1). Application data were also provided. (Table 1).
The igus® laboratory carried out tests in order to compare the wear of different iglide® materials with competitors' bearings and find the ideal material for this application.
Brass bearings and customer's shaft Figure 1: Brass bearings and customer's shaft

Table 1: Application parameters

Parameters Value
Bearing material Brass bearings (competitor's); iglide® Z; iglide® Q
Shaft material Steel
Movement Displacement: tumbling (with bulldozer effect)
Speed 0.49 f/s (corresponds to 74 rpm in the test)
Cycle 4 rotations (10 s), 90 s pause
Load 435 psi to 4,134 psi (increases every time a rotation is completed)

 
There was no standard test set-up for the application parameters indicated. For this test, a new test set-up (Figure 2) was planned, designed and built - For the test, a constant load instead of an increasing load was used in order to expedite the test and keep it relatively simple.
In order to be able to rule out temperature influences due to continuous movement - something that differs from the real conditions of use -, a test interval of 6 s movement and a 54 sparse was set.
Test set-up Figure 2: Test set-up
The tests were carried out dry and also with initial lubrication. The lubricant used for the test was OKS 400. The results of the tests are compared in Table 2 and Figure 3.

Wear when subjected to the stresses of tumbling (bearing moves around the shaft = Bulldozer effect) :

iglide® Z bearings, iglide® Q bearings and competitors' bearings made of brass were tested dry as well as with lubrication on the customer's steel shaft; p = 14.67 MPa (2,128 psi ); n = 74 RPM
Test results Y = Wear rate [µm/km]
Figure 3 : Test results
The wear of iglide® Q when dry and also when lubricated is the lowest in this test. In addition, the tested parts were subjected to a visual inspection. The results are shown in Figure 4, Figure 5 and Figure 6.

Figure 4: Brass bearing with associated shaft after being in operation (examples)

Marks on the bearings and shaft were visible.

Dry

With lubrication

Test of iglide® Q
Test of iglide® Q

Figure 5: iglide® Z bearing and associated shaft after being in operation (examples)

There are almost no visible signs of damage on the sliding surface.
The bearings have a few marks on the inner diameter surface caused during initial wearing-in of the bearings.

Dry

With lubrication

Test of iglidur® Q
Test of iglidur® Q

Figure 6: iglide® Q bearing and associated shaft after being in operation (examples)

Dry

With lubrication

Test of iglidur® Q
Test of iglidur® Q

Conclusion:

In this test, the iglide® Q material showed the least amount of wear and had the best results in the test bay.
The worst results were exhibited by the tested brass bearings due to the high level of bearing wear and the damage to the shaft.

Want to test a custom application?

We would be happy to also test your individual specific application. Just use the contact form!

More information:

iglide® Q - Material data

iglide® product overview

iglide: large range of bushing & accessories from igus®

iglide® plastic bushing applications

Examples where iglide® plastic bushings have been used in real-world applications in many different industries.

dry-tech® test laboratory

Tribopolymers developed for dry operation.

igus® develops polymer materials for new applications in the area of bearing tribology. Base polymers, solid lubricants and reinforcing materials are combined to achieve the perfect bearing properties.
 
These are confirmed in laboratory tests based on real conditions in practice in order to improve the materials used.
dry-tech lab In the dry-tech® test lab, over 135 trillion test movements are carried out each year


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