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Machinery & Equipment MRO
April 2021
A STICH IN TIME SAVES NINE Coming across three cases where pre-planning, the right tools, and the right processes, saves both time and money when undertaking the maintenance and rebuild of machinery.
Case 1 A user removed a large winch assembly and replaced it with their spare. The assembly that was removed was scheduled into the future for upgrade and rebuild. There was no timeline for the start of the rebuild and as it turns out, the assembly sat in the “as removed” condition for 18 months (about one and a half years) exposed to the elements. When the job started, it had a strict deadline, so any delays were of concern. The assembly was delivered to the shop. For the rebuild, it was discovered that the bearings had suffered from moisture corrosion to the point that they needed to be replaced. Fortunately, there was stock available for the bearings so replacing the bearings did not delay the job, however, the $20,000-cost was an unnecessary dent in the project budget. The expected bearing life for this machine was exceptionally long and the used life of the bearings was a small fraction of their design life. The loss of these bearings was wasteful. Had the bearings been cleaned and protected at the time of dis-assembly, they would have easily avoided the damage. The cost of paying for a full day of one millwright’s time to clean and refill with fresh grease and shrink wrap the housing is a fraction of the replacement cost of the bearings.
Case 2 In this case there is a shop that routinely rebuilds large rolls with bearing journals of 480 millimetre (19”) diameter. The bearing is installed onto the sha¥ with the use of a withdrawal sleeve. The way the withdrawal sleeve works is that it is a tapered sleeve that is pushed under the bearing using a hydraulic nut. In this arrangement, there are two sliding surfaces, one on the bore of the sleeve and one on the outer diameter (OD) of the sleeve, as the
sleeve is jammed under the bearing. To assist with the installation, the withdrawal sleeve has hydraulic channels machined into it such that a high-pressure oil film is injected into the sleeve bore/sha¥ gap and the sleeve OD bearing interface. This reduces the friction and protects the sliding surfaces from metal-to-metal contact that could cause surface damage. This does require the use of two high pressure oil injectors and the associated hardware to hook up to the sleeve and create the film. These injectors only cost about each, so they are an additional expense for the shop, but these tools last for a long time. So, in this case, the installer is not using the hydraulic injectors, they are using the brute force of the hydraulic nut to push the sleeve into place. The result is that the sleeve is galling the sha¥ as no separating film has been generated. As such, the shop is reporting that they must fix the bearing journal a¥er each install/removal cycle. At this point, the cost to rework the bearing journal is unknown. However, the cost of this rework is being charged to the user instead of the shop, who is the cause of the problem.
Case 3 In this case the application is a coupling using a tapered sleeve shrunk onto a sha¥. The first step is to heat the sleeve to fit it onto the sha¥, as there is an interference fit between the sleeve bore and the sha¥ outer diameter. The second step is to mount the taper bored hub onto this mounted sleeve. The method suggested for heating the sleeve is in an oil bath to ensure the sleeve is evenly heated. The contractor had suggested that they could heat the sleeve with a torch. This is a much simpler method, however, its downside is
that it first heats only the surface material. With this, any temperature measurements may indicate that the sleeve is the correct temperature, but this would reflect the surface temperature of the sleeve as opposed to the temperature of the bulk of the sleeve. If an a empt is made to slide the sleeve onto the sha¥ before it is properly heated (and expanded), then the likelihood is that the sleeve jamming on the sha¥ is only halfway mounted. Once this happens, there is no way out without damaging the material, either by localized heating to get the sleeve to grow, or by galling if brute force is used to pull the sleeve back off. Using a torch to directly heat a sleeve or
Photo: PaulGregg / E+ / Getty Images
BY DOUGLAS MARTIN
