Oil contamination may be defined as any foreign material found in the lubricant which is not added by design. Usually, contaminants are not beneficial, and may be detrimental, to the performance of the oil and/or the operating machinery. Contamination is a significant root cause of machine and lubricant degradation and failure. Often overlooked as a source of failure because its impact is usually slow and imperceptible, contamination is both a significant threat to reliability and quality efforts, and an opportunity because improvements are very attainable1. Research on an array of fluid dependent machinery such as bearings and rotating equipment, hydraulic systems, gearboxes, and diesel engines, clearly supports that often machine reliability is a function of contamination control.

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Optical particle counters (OPC’s) have a long history of use in industrial hydraulic applications. Traditionally, their success has been limited to scientific laboratories and other highly controlled environments. However, in recent years, attempts have been made to apply the use of OPC’s to the particle counting of used hydraulic fluids and industrial lubricants. As a result, serious concerns have been raised regarding the accuracy and reliability of OPC’s in such applications.

The objective of this bulletin is to present important facts from reliable and documented sources for the general benefit of existing or prospective users of OPC’s. As particle counting moves into the mainstream of machine condition monitoring, users must have reliable information to identify and select appropriate technologies.

The post The Accuracy and Reliability of Optical Particle Counters with Industrial Oils and Hydraulic Fluids appeared first on Tesibis.