Still questioning why the rod would need to rotate in the piston and the rod especially when interference fit pins are used in the piston when circlips can come displaced from their groove. This leaves rotation in the rod alone.Rod.s wrote:Awesome, now we're talking, love your workmisterdimwiddy wrote:Reading my way through '4 stroke performance tuning' by A. Graham Bell and stumbled upon the following equation to calculate piston acceleration at TDC.
a=0.000457*N^2*S*(1+(S/2L))
where
a = acceleration ft/s^2 (horrible imperial units)
N = rpm
S = stroke (67.5mm or 2.657")
L = rod length (5")
Putting some numbers into this, and if I have done my calculations correctly, the indication is that over revving has an enormous effect on piston acceleration because rpm is a squared term in the equation.
Revving an extra 1000rpm to 9k results in a 27% increase in acceleration which then means that using F=ma (Force is proportional to acceleration), Force on the rod (small and big ends) also increases by this % amount.
For a given level of acceleration, if piston mass increases (as the JE does being 40g heavier than stock), the force F increases even further.
Need to double check my calcs but I reckon over revving to 9k with 448g JE pistons combines to give a 39% increase in force on the small end compared to a stock piston at the red line.
Even with a perfectly healthy lubrication system, this has to be a major threat to effective small end lubrication (much smaller bearing surface area than the big end) which doesn't even have pump pressure to maintain the seperation between rod and pin surfaces.
Pickup on my rods/pins is not dreadful but I am now fairly confident that the damage is my own fault through (usually unintentional) over revving and that keeping to 8k (which then only results in a 10% Force increase due to the 40g extra piston weight) should give me a reliable motor.
Bore and ring wear has resulted from running the JE top end with a knackered crank back in April.
Thinking of using a programmable ign unit (again thanks to Sandune51 who pointed these out to me) to enable me to set a reduced rev limit. You could simply say 'don't over rev it' but on track I find it difficult to focus entirely on the tacho and it revs like a good'un with all the goodies attached.
May all be Sunday morning nonsense but at the moment it seems a plausible explanation to me.............now factor the pressure taken to force the oil form the gudgeon pin surface and you are on the way to finding out the best oil to use for high RPM! So is the pin designed to rotate in the piston or is it static?
To keep to your red line, fit a rev limit light (my choice) or a rev limiter. The light should be mounted in your peripheral vision allowing you to keep the track in view and not over rev…..
Rod
Sounds as though at extreme revs the small end can deform axially under load and this then grips the pin which if fixed to the piston causes piston rock and bore wear. If the pin can rotate on the pin then there is no problem in this event (unless the piston deforms as well).
I did find some info on F1 rods having a pressure oil feed up the length of the rod to the small end.
You have convinced me that an ign unit is the way to go Cobba. Relatively low cost in the scheme of things. I also have Dyna coils on my shopping list.
All good interesting stuff.
Peened rods are back on TUesday and hopefully rebored liners so I can start putting the motor back together.
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