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WearCheck Space-fillers/ Technical Snippets: LUBE TIPS

* We respectfully request that WearCheck is acknowledged as the source of the info, if the following content is published. A link to www.wearcheck.co.za  will suffice. Thank you in advance!

** wordcount provided after each Lube Tip is excluding each heading.

*** Where a Lube Tip has an associated graphic, it is included below the tip.

Volume 1 September 2023

Contact details:

Company – WearCheckPR – Just Write Public Relations
E: vanessae@wearcheck.co.za  T: +27 31 700-5460 (Vanessa) W: www.wearcheck.co.za  E: sharon@justwritepr.co.za T: +27 82 823-0539 (Sharon)


  1. Lube tip: foaming is affected by oil level

In a circulating system, it is crucial to check the oil level before introducing antifoam agents to address a foaming problem. Foaming issues can be caused by oil levels that are both too high and too low.  Insufficient oil could lead to the formation of a vortex inside the reservoir at the circulating pump’s inlet, drawing in air. If there is too much oil in the circulating system, it could result in oil coming into contact with a surface of the machine that it should not, which could result in slinging the oil, or churning it.

Sometimes, the amount of foam may prevent an oil-level reading being taken. While it is never advisable to insert any solid object into an oil reservoir without knowing its internal shape and size, you may be able to insert plastic tubing (clear) straight down to the bottom of the reservoir. Create a seal by covering the top of the tubing tightly, and extracting it – this should show the real oil level. Visit www.wearcheck.co.za for more condition monitoring information.

  • Lube tip: how particles create more particles

Abrasive wear can cause a chain reaction in lubricated machinery. The typical chain reaction is: abrasive particles become work hardened, the work-hardened particles produce more particles, and then the new particles become work hardened. This chain reaction continues until the particles are removed by filtration or the machine fails. Visit www.wearcheck.co.za for more condition monitoring information.

  • Lube tip: thermal failure in lubricants

Lubricants can thermally degrade for a variety of reasons and causes. Unlike oxidation, thermal failure can occur in new lubricants with healthy additive packages. However, many of the symptoms of oxidation are also symptoms of thermal degradation.

One of the most common causes of thermal failure in hydraulic fluids and some lubricating oils relates to aeration, i.e. entrained air bubbles. These bubbles can become rapidly compressed in hydraulic pumps and in the squeeze zones of bearings. This results in high localized temperatures. Hot surface carbonization is another form of thermal failure. When an oil thermally degrades, problems associated with sludge, varnish, deposits, viscosity change and additive decomposition will often occur. Visit www.wearcheck.co.za for more condition monitoring information.

  • Lube tip: gearbox sump

Overfilling a gearbox sump can be just as damaging as underfilling it. Overfilling may cause air entrainment and foam, overheated oil and leakage due to overflow. Over time, oxidation may occur due to increased temperatures and exposure to air. Visit www.wearcheck.co.za for more condition monitoring information.

  • Lube tip: kinematic viscosity

Kinematic viscosity is a measure of a fluid’s internal resistance to flow under gravitational forces. It is determined by measuring the time in seconds, required for a fixed volume of fluid to flow a known distance by gravity through a capillary within a calibrated viscometer at a closely controlled temperature. Visit www.wearcheck.co.za for more condition monitoring information.

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