hardingfv32 wrote: ↑26 May 2017, 19:18
Why the requirement for large clearances? Smaller clearances can carry more load. Modern race engines use almost 'zero' clearance on the journal bearing when cold. Must be preheated before starting.
I am not sure how the cooling requirement of the journal bearings is satisfied in these modern race engines… higher temp bearing material etc. ?
I do not see how the pressure from the oil system (50-100 psi) is adding much to the 1-2000 psi required at the bearing interface.
Brian
Up to a certain point a larger clearance provides an increase in the minimum oil thickness and thus a greater load that the oil wedge can support.
A common practice in modified production engines is increasing this clearance for longer life and in some cases being able to survive the loads in question. It's the only way to get the main bearing caps or the engine block itself to survive in many cases. A 2JZ is a classic example of this.
Another factor that comes into play here is that the tighter the clearance the more heat that is generated. So in some ways too tight can mean more flow is needed to aid in cooling.
The wedge zone gets complicated. The Hydrodynamic effect that supports the load is of course created by the rotation of the shaft and the loads on it. But it relies on the oil being there in the first place. No oil, no wedge of course. So the flow of oil has to counter the leakage and the force of the journal trying to compress it. The oil pressure is needed to get the flow required.
It's a fun balancing act of cooling vs clearance vs loads vs flow vs pressure.
I may not have done a good job of explaining my point of view yesterday.
There are some nice charts showing the minimum thickness at different clearances at the following location:
http://www.substech.com/dokuwiki/doku.p ... e_bearings
