Howdy Back Bob and All:
"Do you know of a reference article (on this forum or elsewhere) that can refresh my memory on squish, quench, deck height, combustion chamber shape, etc as it relates to CR, piston selection and decking/milling?"
Good questions. I can't think of a source right off, but all have been discussed here at some time or other. But, to review, "Quench" is the effect of a fresh intake charge of fuel and air being squeeze out of the tight, non combustion chamber or piston dish, areas between the top (non-dish area) of the piston and the cylinder head (not the combustion chambers). the process of being squeezed out of the quench areas at high speed create turbulence in the combustion chamber of the head and piston dish. Turbulence is good for an efficient burn on combustion. Quench happens best in a head with a "wedge" shaped combustion chamber, and it happens best when the "deck clearance" is in the .030" to .040" range. Any more and the quench effect is diminished. Any less and the risk of parts occupying the same space at the same time is risky.
Deck clearance is the total of "deck height", the distance from the top of the piston to the top of the block. The other dimension included in deck clearance is the compressed thickness of the head gasket, which varies from .025" on a stock, OEM steel shim gasket to .055" for an aftermarket FelPro composite gasket.
The combustion chamber shape on our engines is typically referred to as a "wedge shape"- somewhat like a bath tub but the spark plug side is deeper. The chamber shape on our engine head is irregular and is as cast and not machined. The chambers can benefit from reshaping to lessen intake valve shrouding, polishing to remove hot spots and to reflect heat back into the chamber. It is beneficial to maintain as much deck around the chambers as possible when reshaping so as to maximize the amount of "quench-to-bore" ratio. That is the amount of quench area remaining where the flat, non-chamber part of the head and the top, not the dish, part of the piston come together. You will note the the round dish in the pistons does not match the wedge chamber of our head- less than ideal, but probably more cost efficient for the Dearborn bean counters. Many modern, high efficiency engines use a chamber that includes the chamber in the head as well as the piston dish
All of the above go into the combination of compression ratio as well as combustion efficiency. Reducing deck height and tightening deck clearance improves efficiency. Decking the block is one way to reduce deck clearance. Using a piston with a taller "pin height" is another. "Pin height" is the distance from the center of the wrist pin to the top of the piston. The other factor is the thickness of the head gasket. Thinner is better. Decking, or milling the top of the block is one way to reduce piston deck height. Finding a piston with a taller pin height is another. Both will increase the compression ratio and increase efficiency.
I'm going to quit for now. This is alot to comprehend. Don't hesitate to ask questions for clarification. I want you to know that I did run some numbers for your engine. The bad news is your basic spec come out to 7.9:1 CR. That's the place to start.
Let me know when you're ready for more.
Adios, David
