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I must have picked up a wild hair somewhere, because I'm seriously considering dusting the iron heads I've been working over and going with 3100/3400 heads on the 3.1.
The 3.1 short block is already assembled with the iron head pistons (12cc dish), so I'd be looking at nearly 11:1 CR. Seems too high for the intended purpose, especially since this will be boosted.
If gen 3 heads can be opened up to about 35cc's then the CR Calculator tells me that the CR drops to 10:1. Might be able to go with 8 lbs boost with proper intercooling and tuning.
Is there enough metal in the head to remove 6.5 cc's from the combustion chamber? Seems like a lot to remove.
The quench looks crappy with the iron head pistons and gen 3 heads. How important is quench in a boosted application? I always thought there would be sufficient combustion chamber turbulence just from boosting, but would a quench distance of .077 cause other issues?
I've got a spare set of rods, so I suppose I could just get a set of gen 3 pistons and move on, but what's the fun in that?
The 3.1 short block is already assembled with the iron head pistons (12cc dish), so I'd be looking at nearly 11:1 CR. Seems too high for the intended purpose, especially since this will be boosted.
If gen 3 heads can be opened up to about 35cc's then the CR Calculator tells me that the CR drops to 10:1. Might be able to go with 8 lbs boost with proper intercooling and tuning.
Is there enough metal in the head to remove 6.5 cc's from the combustion chamber? Seems like a lot to remove.
The quench looks crappy with the iron head pistons and gen 3 heads. How important is quench in a boosted application? I always thought there would be sufficient combustion chamber turbulence just from boosting, but would a quench distance of .077 cause other issues?
I've got a spare set of rods, so I suppose I could just get a set of gen 3 pistons and move on, but what's the fun in that?
Yeah, forgot about that issue...
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