Improper sampling can lead to inaccurate interpretation of the results and potential equipment...

Improper sampling can lead to inaccurate interpretation of the results and potential equipment damage or failure.

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Fleet downtime and associated maintenance costs are a continual pain point for owners and operators, so understandably, they’re always on the lookout for efficiency and productivity gains to improve fleet performance.

An important part of this is reflecting on all contributing factors, such as driver style, idle time, and truck design, as well as proactive measures that should be incorporated into the overall program.

Used oil analysis is a proactive maintenance measure that can highlight and identify the signs of mechanical failure within the engine before it becomes too serious or expensive to repair.

The data from a used oil analysis report can offer operators the potential to extend oil drain intervals (note: extending drain intervals should always be undertaken in conjunction with an oil analysis program), providing another effective method for reducing maintenance costs and increasing fleet time on the road.

The Three-Step Process

There are three simple steps to used oil analysis:

  1. Taking a representative sample – This is a critical step in the process, as improper sampling can lead to inaccurate interpretation of the results and potential equipment damage or failure. A clean, dry container suitable for holding used oil should be used, with a label affixed to it that has the information for the laboratory to put into their database, for example equipment type and miles/hours of operation. Before taking the sample, the sampling point should be clean and a small amount of oil should be flushed to ensure that no foreign contaminants make their way into the bottle.
  2. Sending the sample to a qualified used oil analysis laboratory – Once the sample has been taken, it should be sent as soon as possible to a certified oil analysis laboratory. In some cases, a delay can mean the difference between being able to diagnose and correct a serious condition, and losing a critical piece of equipment due to failure. The laboratory will then test the oil using standard test regimes, providing accurate results and diagnosis in a report.
  3. Interpreting and acting upon the report results – To effectively interpret the results for your equipment it is key to have guidelines on what levels are normal for your type of machine and how it operates, as looking at the trends over time provides more insight than single values.

When working with a specialized oil provider, or technical service advisor, experts will be on hand to provide insightful commentary and highlight significant changes in the report’s findings. As part of this process, they will evaluate the trends that have developed over time and highlight any anomalies along with recommendations for maintenance and if it’s possible to extend oil drain intervals.

Report Reading Tips

It’s also useful for fleet owners and operators to be able to read their used oil analysis report and correctly interpret the data. This can help them familiarize with what is a ‘normal’ reading for their fleets as well as ensure that any required maintenance is organized as quickly as possible before further problems arise.

When first reviewing a used oil analysis report it is important to look at many of the key indicators, like base number (BN), acid number (AN), viscosity, oxidation, fuel soot per cent and fuel dilution per cent as well as wear metals.  Also, the  presence of glycol or coolant, which would be shown through increases in silicon, potassium and/or sodium, and potentially water, can be the first signs of a failing EGR cooler seal, so would require the immediate attention of a technician or mechanic.

Increases in iron and aluminium can mean that a component within the engine is abnormally coming into contact with another and wearing at an accelerated rate. This could potentially be a failing camshaft, coolant leak attacking the liners or the engine requiring mechanical adjustment, so spotting the signs early could result in significant cost and maintenance savings.

If iron, aluminium, lead, and copper have all increased, the protection of vital engine components may have been compromised, so expert support should be sought to help resolve the issue.

Monitoring the levels of key properties within the engine oil provides fleet owners and operators with the ability to predict issues and schedule maintenance before problems become too expensive or serious to repair. Effectively helping reduce the risk of unplanned downtime and sudden engine failures, used oil analysis and data interpretation can reveal how abnormal metal to metal contact has accelerated and help identify its cause.  

About the Author: Ron LeBlanc Sr. works in the technical services of Petro-Canada Lubricants. 

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