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I have heard of cases where going way out to the extreme right on zn/p can result in a return to the mixed/boundary condition and increased wear. The specific example was a railroad company that had major increase in car bearing failures during cold winters, the problem diagnosis was that the actual viscosity of the base oil in the grease at the initial startup temperature was unable to flow into the bearing elements as fast as it was being displaced.(It was above the pour point.) The solution was a grease with a base oil that was less viscous at low temperatures and as extra measure reducing the texture/thickener content by one ngli grade so a larger percent of the base oil would be released at the low operating temperature. In addition to being a passive/non-pressure fed lubricant, this condition is also dependent on the width of rolling elements, the spacing and speed of elements, and the height of the liquid oil bath (speed of actual flow for a given viscosity), in other words the conditions of time and distance for the oil to flow in replenishing the film on the race.

Hello from China ,lubrication is a quite interesting subject ,

Thank you very much for that video. It was fantastic, very well done and very insightful

You said you would want a lambda > 2 in stop-start operations. What do you mean? When the bearing starts to rotate after been stopped for a while, lambda would be zero, wouldn't it?

what is surface roughness measured in ?

Excellent explanation

This is great! Thanks LE

Sir, when we texture the bearing surface, the texture grooves would act as reservoir which aid effective lubrication in starting and stoping conditions. So by doing so we are altering the surface topography i.e. the value of denominator of lambda. Will that make any affect on the value of ideal lambda???

Besides ,I can't visit ur website ,it's unaccessible

So informative thanks

dude you literally didn't say anything about the difference between ehl - hl. I mean what was the point of naming your video EHL if you are not going to explain it? I have no idea what is the difference between ehd bearing and hd bearing right now.

"And this one is the sticking point" when describing the difficulties with obtaining pressure-viscosity, really tickled me. kzbin.info/www/bejne/omKWZYiEi7msrs0si=0ggfSn7WE9pIL6zv&t=625

The saliva voice