and that's exactly why round cylinders in a static environment are even less important on a big HP engine unless you have the time, money, and equipment to recreate the cylinder distortion in the dynamic environment of the running engine. Lets consider for a moment that there is indeed some cylinder distortion when the heads are bolted on. You machine the block with a torque plate attempting to compensate for this and then you run the engine. Now those perfectly round cylinders at 5x the power level of stock are no longer round, so did getting them perfectly round sitting on a honing machine really matter?
Charlief
Did any of those people provide quantitative evidence that there is distortion?
Lets say there was, the needs of an indy race engine are significantly different than 99.9999% of the buicks on this forum. They are working within a strict set of rules that effectively make every car run within single digit % points in power. When this situation exists and you have mountains of money, you can start to throw cash at things to pick up single digit hp. They also have the means to really test these differences and adjust their honing methods to more accurately reflect distortion conditions in an actual running engine.
If there are some concentricity issues, then lets talk about what kind of horsepower we are talking about in a running engine. Isn't that the point?
What kind of power do you think you gained by spending $638 dollars on a "special" hone job vs a regular hone job... 5? 10?
I can think of a lot better ways to spend the difference between that hone job and a cheaper one. 400+ dollars put into heads or cam or intake or chassis could probably go a longer way to reducing your et than some likely tiny hp gain that as of yet still has not been proven.
All I am saying is that I would like to see some numbers, if the hp per dollar gain looks good, I'll shut up
