so lets build a hypothetical marine engine from scratch that would mimic what you have after taking .050 off the heads.
A quench configuration. .040 +/- .010 piston to head surface.
8.6? Think that is what you said you thought you had. For kicks lets say up to 9.0-1.
Peak rpm @ wot 4000. Peak hp @ 3900-4000 or propped for 4000 wot rpm (very important)
cammed appropriately for rpm range. (same as IH did) this really won't effect running peak ve or peak torque cylinder pressures or octane requirments
timing 32-34 total initial and mechanical advance.
Octane requirements would be 87 r+m/2. Tops 89 @ 9.0-1 compression.
On the odd occurrence that you encounter detonation or ping. Recurve the advance to come in later.
Install 2-3 colder on plugs.
Now I have read your problems and suggest not adding 2 head gaskets. This will eliminate the quench effect and reduce the detonation resistance of the assembly. I have been building marine application engines for years and the formula is the same as what IH did for their trucks.. Only the rod ratios are oddly big which will cause more dwell of the piston at tdc. This can require less timing but that's it really.
Still pinging? Pull some timing out.
That would require decking the block and using the other set of heads to get a low quench of .040, I know that is desireable to do.
I really don't know what I have now for a cr, just going by what the calculators say, but discouraging stock oem numbers come up with 7.5 instead 8.
Back 10 years ago, after shaving head .050, when the motor was running in slip no load, ran fine. Ran fine when revving up with no load. So we took it out, idled out into the chesapeake bay. Then when I opened the throttle instant detonation and also constant, sound horrible. Really even just a little throttle was constant detonation.
So I retarded the spark and no effect. No matter how far retarded it continued to ping horribly, very surprised at that.
Thing is with boat, your always under heavy load, and also the gas gets old since it sits in the tank. And of course the engines are in a tight bilge space, so the air they breath is hot like a desert. All those things are good at making the engine detonate.
The pistons sit in the hole maybe 0.035, I will measure when I put it together. Then you have a gasket of .040, so already piston to head is at
0.035+ 0.040 = 0.075.
So only way to fix that is deck the block to zero so quench is then .040.
Anyway that requires moving big heavy block to a shop.
'cammed appropriately for rpm range.'
are you suggesting a bigger cam with a abdc of like 50* to 60*?
What cam would be appropriate you think?
The current cam crams a lot of air in since the intake is closing at 22* to 25* abdc, so moving to a bigger cam, that would lower the dcr and it would develop more power at a higher rpm?
What would happen if I left the quench at 0.075 using a single head gasket, the current shaved heads and went to bigger cam, would it detonate on 87 octane?
With the doubled up head gaskets, that puts the cr at maybe 8 to 1, and I know that works ok with no pinging.
