I reckon we could speculate all day long about 'this aspect' and then 'that aspect' etc etc.....what about the exhaust, what about the size of the transfers, what about the weight of the rod and piston....what about the stars and the moon, etc etc.....all we've done is trim a few grams of the crank, its no big deal.
Have we lowered primary compersion THAT much....not really, a little bit....but not much. Also...when using the phrase 'low primary compresion' you really need to define what you mean by that......low compared to what?
As per Charlie Edmonds article in Scootering, Lambrettas are running way too high PC as standard anyway (did he quote 1.7 ??), and some modern motocross machines are down to 1.2....Jennings quotes 1.5 as a good figure in certain applications.....and thats my point.....trimming 40cc of the crank aint no big thing when it comes to HPC/LPC etc. RinB did the calc and it lowers PC by 0.07 ! Nuthin.
As stated, its experimental, and although its a lot of work....its rewards are expected to be small....but as with any tuning....a single small step is of no great consequence, but put that with 9 or 10 other small steps, and they all add up. And of course, don't forget, when tuning ANY machine, the first 70-80 percent of gains come relativly easily and cheaply.....but that last 20% is a bitch!
A change of reed petal thickness, a 2mm reduction of bellmouth tract, 1 mm off the top of the exhaust port, a couple of mm off the sides, decrease squish gap by 0.3 of a mm, decrease squish area by 10 perecnt, incease comp ratio by 15%, polish the exhaust port, upgrade the spark plug, increase the main jet size, change the front sprocket, trim 40cc off the crank, higher grade of oil, different oil/fuel mix %, higher octane fuel, a lighter piston, lighter flywheel, different cowl.....and on, and on....
Not one of these things alone is groundbreaking or revolutionary, nor will one single item have an earth-shattering WOW factor.....but as the list gets bigger, so does the accumlative effect on performance and reliability, and all we are doing with the crank.....is adding one more item to the list....another accumlative effect.
We expect it to help with performance due to a decrease in rotating mass, improved gass flow, reduced vibration, and give an increase in revs.....this is already the case on a similar set up......but we shall see, the proof is in the pudding. It'll be built in a couple of weeks and we'll see what 'dyno theory' says as well as real world performance, running and top speed etc.
If its s**t.....its s**t, i'll still sleep at night....but if it rocks, then its all cool.
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