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African Petrochemicals is South Africa’s leading quarterly print and digital trade magazine for the past 16 years. Featuring all the latest petrochemical industry news, special reports, technological advances and much more.

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Finding fault: determining the true cause of premature bearing failure

Premature bearing failure is often blamed on ‘white etching cracks’ – but looking deeper for the true underlying cause will lead to a more effective solution, says Erik Vegter, Senior Scientist for Fatigue Modelling and Testing at SKF.

Modern manufacturing practices, and techniques such as predictive maintenance, have helped to make premature bearing failure a rare occurrence. However, it can still happen and, when it does, can have a catastrophic effect. The most worrying thing is that some failed bearings are nowhere near the end of their calculated lifespans and may only have operated for 5-10% of their rated life. This is a source of great expense and annoyance to customers, who expect their bearings to last for their calculated lifetimes and beyond.

Some applications, such as wind turbine gearboxes have shown to be more prone to early bearing failure than others. The important thing for customers is to diagnose the failure and correct it. However, there has been plenty of debate over the exact causes of early bearing failure.

One common feature of premature failures is a network of small, white decorated cracks below the surface of the bearing, so-called ‘white etching cracks’ (WECs) or small axial cracks visible at the raceway surface. At first sight, it makes sense to assume that these are the cause of the problem, as they are seen in most cases of premature bearing failure.

 

However, an extensive, four-year research project carried out by SKF has shown that in reality these cracks occur at the end of the failure chain and are a natural consequence of crack networks in prematurely failed bearings. The company’s specialists concluded that WECs are only a visible symptom of the failure, and not part of the underlying cause.

SKF has so far identified seven mechanisms that cause premature bearing failure, leading to one common result: shorter bearing life as well as the appearance of WECs. As a consequence, SKF has developed a scheme to classify premature bearing failures, to help application engineers work together with customers to find the true root cause of the failures and, consequently, the most appropriate solution.

Despite this new insight, some premature failures are still being assigned to WECs and resolved on that basis (usually by replacing the failed bearing with an identical one). However, rather than needlessly repeating this approach, it is vital to drill down into the problem and pinpoint the underlying reason for failure. The SKF research has identified a series of underlying causes, allowing more accurate solutions to be found in each case.

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