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Advanced Engineering 2021

NEC Birmingham(B40 1NT)

03/11/2021 - 04/11/2021

Join us in our 12th and most important edition to date, as we invite engineers and management from all (more)

Keeping a watchful eye on the health of hose assemblies

Keeping a watchful eye on the health of hose assemblies

Unexpected hydraulic hose failure on machines can have serious consequences - consequences that can be costly. Alexandra Benz of Eaton Hydraulics looks at the issues involved and proposes a solution.

Machine builders are under constant pressure to design and build highly customised machines that operate without fault, for longer and at the highest possible level of energy efficiency and safety throughout their service life. Unexpected hydraulic hose failure, then, is a significant challenge.

Internal fatigue due to impact cycles and external abrasion are the two most common causes of hydraulic hose failure. In fact, combined, they account for over 80% of field failures. In the past, many operations in the sector have chosen to minimise the risk of hose failure by replacing hoses on a fixed schedule. This standard practice can increase cost and produce waste. When hydraulic hose assemblies are replaced before they reach end of life, hose assembly costs and labour are driven up and unnecessary maintenance is performed to avoid downtime.

With this in mind, some hose manufacturers have developed various predictive formulas that consider time, pressure, temperature, the number of flex cycles, and other factors to produce an approximation of expected hose life. Eaton's in-house lab testing shows most hoses that are replaced on a time-based schedule of estimated life had actually reached less than half of their safe useful life.

Eaton initiated a research project in partnership with Purdue University to effectively address the issue of hydraulic hose failure. The project sought to identify measurable, structural phenomena associated with hose deterioration over time, and develop the required technology to monitor them accurately.

The joint research determined that hydraulic hose failure is the final step in a consistent process that can be measured and therefore monitored to provide a reliable indication of an approaching end-of-life condition. The result is LifeSense, an intelligent hydraulic hose condition monitoring system that detects failure-related events within a hose and provides advance notification the product is approaching the end of its useful life.

The LifeSense system is based on the fact that certain properties of a hose change as the hose approaches failure. Eaton found by periodically comparing samples of these properties to a baseline gave a highly reliable indicator of imminent hose failure. Each hose fitting is equipped with a sensor that continuously monitors hose conditions via electrical signals, which are submitted to a hose diagnostic unit which interprets the data.

The hose diagnostic unit (HDU) runs on a 12V DC or 24V DC and can monitor up to eleven hose assemblies.

A range of standard wire cable lengths are available to accommodate different applications, running from 3m up to 300m. As the hose assembly approaches the end of its useful life, LifeSense detects events occurring within the hose that have been shown to lead to failure and then provides notification to the user. This notification is provided with enough time to replace the hose during planned maintenance prior to failure, thus reducing downtime.

LifeSense is also available in a wireless option with a gateway that can monitor up to 100 hoses with a 433Hz frequency communication protocol. The sensors, which have a greater than six-year battery life, continually monitor the hose and the gateway transmits operating performance data to secure server once per shift (every 6 hours); should an issue arise, the gateway transmits data immediately. Eaton's LifeSense web portal offers advanced system monitoring providing maintenance teams access to specific data such as hose installation date, connection status, trend reports, and diagnostics management.

Tests have shown that assemblies safely remain in service for far longer; up to 50% more service life can be expected. Real time monitoring of the hose can also make the workplace safer, more productive, and more profitable, and concerns about idled equipment, environmental clean-up, collateral damage, and personal safety are also lessened.

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