Since the engine's in bits I'll have a look on Saturday to see how far down they sit - the article definitely says 318 pistons. They machined them to sit .020 inside the block and reckon that gives 8.8.1 CR. I reckon on 95 octane it should be ok to go a bit higher than that so maybe could go for zero deck height.
They used 360 heads, ported and polished. I've got 360 heads on the 318 already, but they're open chamber smog typre heads, so was going to skim them anyway, as it seems that if you put 360 heads on a 318 without skimming, then you get a rubbish CR. (stands to reason - start with a low-comp engine and increase the size of the combustion chamber and the cr goes down) It was pretty lifeless before, even though when I pulled it apart it was all in good nick.
I don't think all 360 cranks are shot-peened, but it would be better if it is - I'll try and find out what this would cost. they don't mention it in the article.
I'll still skim them a bit, I think, even with the larger swept volume, though that means more machining on the inlet manifold. The engine with the knackered block has got a crane cam in it as well, so I can put that in if I get stronger valve springs. It seems a lot of bother to end up with something that's not as good as a normal 360, but it should go faster on the cheap(ish) and will leave me with enough bits to build a 360 if I have the time and money to sort the rusty block out and if the '350' isn't fast enough. plus since I can't throw anything out that's got any life in it, it means I won't be tripping over a 318 short-block for the next twenty years. I'll be happy to see the back of the broken 360 block
I'll let you know what the verdict is from Real Steel
