bob58o
SuckSqueezeBangBlow
I was just showing where it was ground in the pictures.
I can thread the bolt in just fine as is, without running a tap through it. I just figured running a tap might help clean it up a bit.
The measurements seem to show that it wasn't bottomed out.
I'm not sure about the force required to compress the stock composite gasket to what ever its compressed thickness is compared to the force required to compress the MLS gasket to its compressed thickness.
But here's some MLS gasket info I found instead. It explains MLS gaskets act more like a spring when combustion happens and the head gets pushed away from the block.
WHY MLS?
The latest alternative to reinforced composite head gaskets and copper head gaskets for performance engines are MLS gaskets. Unlike these other types of gaskets, MLS gaskets use a different strategy to seal the combustion chamber. They typically use 3 to 5 layers of stainless steel to create a spring-like effect that seals the gap between the head and block.
As engine compression, rpm and combustion pressure go up, the cylinder head is pushed away from the block every time the cylinders fire. The movement isn’t enough to be seen with the naked eye, but it can be measured – and it can be enough to break the seal between the head and block with conventional gasket designs. The amount of lift depends on cylinder pressures and how much the head bolts stretch.
To maintain the seal when the head is pushed up and away from the block, the head gasket has to expand as the head lifts. This requires a certain amount of springiness or elasticity that can only be achieved with an MLS head gasket.
The multi-layer construction of MLS head gaskets allows the inner layer(s) to act something like a valve spring. As the head lifts away from the block, the inner layer(s) of the gasket push the outer layers apart to maintain the seal. The spring steel expands and contracts without taking a permanent set or deforming under load, and the gasket maintains its seal. That’s why MLS gaskets have more "vertical recovery" than other types of gaskets and can handle high pressure applications.
In a stock engine, the maximum combustion pressures may only reach about 1,000 psi. But in a performance engine, they can reach 1,500 to 2,200 psi under race conditions, and soar as high as 3,500 psi if the engine goes into detonation. The higher the pressure, the greater the cylinder head separation from the block – and the more the gasket has to expand and contract to maintain its seal.
Aftermarket MLS performance gaskets are engineered for racing and are not just copies of the OEM style MLS gaskets. They have strategically placed sealing beads around the combustion chambers and coolant passages to concentrate clamping loads in the most critical areas. Some MLS gaskets have an additional stainless steel "stopper ring" to further increase sealing pressure around the combustion chambers (such as in Chevy LS1/LS6 engines).
One gasket supplier also has a line of MLS performance gaskets that incorporate a unique "gas-filled ring" around the combustion chambers. The pressure inside the ring is 600 to 700 psi, and increases as the engine heats up to increase the clamping load and combustion seal. Features like these have enabled MLS gaskets to become the gasket of choice for many forms of racing as well as street performance applications.
The all-steel construction of MLS gaskets makes them almost bullet-proof under even the most extreme operating conditions. The gaskets also have an exterior "Viton" or polymer coating that helps them cold seal on less than ideal surfaces. Most original equipment MLS require extremely smooth finishes (20 to 30 Ra) to seal. Most performance MLS gaskets require a surface of 50 Ra or less, and some have thicker coatings that can accommodate surface finishes as rough as 60 Ra.
As for reusability, MLS gasket suppliers say MLS gaskets should not be reused because the embossing may not fully recover once the gasket has been through a thermal cycle. But as long as the gasket appears to be in good condition when it is removed, many racers find they can reuse MLS gaskets with no problems. And if the surface coating has a damaged spot or two, it can often be repaired with a light coating of RTV silicone.
Many racers who used to run copper heads gaskets have switched to MLS because the gaskets hold up just as well and don’t have the sealing or installation issues associated with copper gaskets. The only drawback with MLS gaskets are their price.
http://www.enginebuildermag.com/2006/10/engine-sealing-high-performance-head-gaskets/
---------- Post added at 02:24 PM ---------- Previous post was at 02:02 PM ----------
Do I need to order a gx series head bolt? Or can I find / make one from the hardware store?
If I don't get the stock one, I should probably get 4 of them?
I can order 1 stock one for $5 with shipping from ebay (It is $0.65 at BMI with $8 shipping).
Or 4 for $10.
The stud kit is like $20 with shipping. I would have ordered it by now, but didn't have my cc when I woke up.
The stock bolts are grade 5 and the stud/bolt kit for head /side cover (from AGK) is grade 10.9.
I went ahead and ordered the head stud kit with washers and nuts from NR racing. I also got some valve spring shims 0.060", 0.030", and 0.016" - a few each.
