These are the hard costs. Now, lets consider the soft (but very real) costs:
More often than not, leaks are caused at the fitting threads or improper O-ring fittings. Though hoses rupture and burst, frequent selection of the wrong fitting, over or under tightening and improper hose, tube & fitting assembly are the biggest culprits of hydraulic leaks. Threads that are not seated properly and O-rings that are not per specification cause unexpected leaks.
Since most hydraulic leaks are at the threaded connection, let’s look at some typical causes and ideas for prevention. After all, standard fittings are for standard connections in standard applications. And yes, there are many ‘standard’, worry free, applications. Yet most field engineers will tell you that ‘standard’ usually only happens in the lab, not in the field.
This is not only true in hydraulics. For instance, consider a compressed natural gas filling station. The gas runs underground from a compressor to a dispenser (the pump that fills the car or truck), often for many hundreds of feet. The only connectors are compression fittings at the end points of the tube because the NFPA (National Fire Prevention Association) code does not allow for mechanical fittings underground when running high-pressure gas. The only choices underground are connecting multiple sticks of stainless tube with longitudinal welds, or running continuous lengths of seamless coiled tubing, connected at the ends with special compression tube fittings. Without the proper connections, natural gas will leak into the atmosphere.
This blog post is an excerpt from our whitepaper, "Reduce Leak Points with Custom Fittings". Click below to download and read more
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