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The purpose of the
head gasket is more than just to create a seal between head and the deck
of the block. It acts as
Heat is produced by the engine almost entirely at the combustion chamber. Coolant flows from the radiator to the block where it is pre-heated before it goes to the head where the temperatures are the greatest. The coolant then flows through the head to the radiator where it looses heat. Water is the heat sink of choice since it has the highest specific heat capacity.
In order for the coolant to be functionally efficient it needs to move in-mass from the rear of the head forward. Most engines have coolant holes in the gasket spaced from one end to the other. These gaskets allow the coolant to percolate through to the head less optimally. Generally, there are smaller coolant holes in the gasket place forward which are needed primarily for gaseous escape routes and less so for cooling purposes. Since racing engines produce more heat it would seem intuitive that the flow through the gasket be channeled to maximize cooling efficiency by having more of the coolant flow through the rear of the head. It should also be stated that the flow of the coolant has to be such that there is an adequate dwell time within the head to adequately absorb heat. Additionally, the coolant should be free of any insulating contaminants such as air (in the form of micro-bubbles) that would preclude ideal heat conductance. Engines like to run efficiently at an optimal temperature typically above 180F but less than 220F. Running an engine hard prior to proper temperature is not good.
This can be a problem
at times. It is critical that the fasteners you are using are better than
"nominal". Use the best you can afford. A key factor that is not considered
often is that the fasteners not only hold down the head but also PULL-UP
on the block. The torquing procedure works in two locations
EXCESSIVE bolt loading will cause problems. Many backyard mechanics think that if 50 Ft. lbs of torque is good then 60 is better. In fact dynamometer testing has shown that less is best in most instances. Indeed extra horsepower maybe gotten by being "torque frugal". Why??? The more torque that is applied onto the block the more chance of distortion. This distortion is usually seen at the weakest places at the narrows point of the bore and at the top of the cylinder. At the top of the cylinder where the compression pressures are always greatest any excess distortion will nullify any benefit of that extra clamping force. Blow-by of gasses will cause premature gasket burn through and less horsepower. "Less maybe best".
The ideal situation is to have a finish on the flange surfaces (head and block deck) as smooth as possible. In older engines the typical surface finish was make buy using a fly cutter on a mill that created symmetric arcing lines. This finish was good for composite gaskets. The idea being that there was some imperfection in the surface so that it would "grab and hold' the gasket in place. Modern motors have bi-metal engines typically. Cast iron blocks and aluminum heads. These have different heat characteristics and therefore stretch at different rates. If these surfaces had the typical finish of yesteryear the gasket would fail due to shearing effects. Newer motors have very smooth finishes -in fact most machine shops don't have (but will have to eventually) the equipment to produce this finish.
When using copper gaskets in any motor ask the machine shop to get an RA (roughness average in Microinches) of about 60 for cast iron heads and blocks and closer to 40 for aluminum. See "what's new" in the table of contents.
Definition; Compression ratio is the volume of the space above the piston at BOTTOM dead center and the volume of the space above the piston at TOP dead center.
In order to figure out the compression ratio several volumes are needed to make the final calculation.
1) Combustion chamber volume: This volume is the space within the head that the piston pushes the charge of air/fuel into. Typically, people refer to this as "cc'ing" the head. It requires an accurate burrette, a piece of clear glass or plexiglass with a hole (to allow you to place colored alcohol or solvent into the space), some grease and a finished head with the valves installed. Apply the grease to the valve seats and allow the valve springs to seal them into place. Wipe off any extra grease from the combustion chamber. Lay the head so that the combustion chamber is face up. Place some grease upon the surface around the opening and place the clear plastic plate upon it. Slide the plate and press firmly to get a good seal. Add fluid into the chamber through the hole of the plastic plate and fill the chamber. You need to be exact. Get rid of any air bubbles by tapping the head. Make sure no fluid leaks from around the valves. The amount of fluid you add to this space is the COMBUSTION CHAMBER VOLUME. Do this for each cylinder. Use the same type of fluid in each chamber measurement. Do Not use alcohol in one and solvent in another.
2) Dome Volume: under construction.....
3)Piston Deck height: under construction.....
4) Gasket Volume: under construction.....
5) Valve reliefe volume: under construction.....
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