Chevy engineers had to bend some of their rules to get as much as 400 cubes from the small-block with its 4.40-inch bore spacing and short deck height. That configuration imposed a definite limit on how far stroke could be stretched without pulling the pistons too far out of their holes. Boring out to 4.125 inches left less than a quarter-inch between the bores, and that had to be solid metal, with no water jacketing to separate the cylinders. The 350's 3.48-inch stroke was extended to 3.75 inches, which necessitated larger diameter (2.65 inches instead of 2.45) main bearings to assure adequate overlap between the mains and the crankpin journals. That, in turn, required a new, heftier, and heavier crankshaft. The longer stroke caused an increase in piston speed that aggravated the greater heat-sensitivity of the siamesed cylinders. As a result, the small-block Turbo-Fire 400 had no potential as a performance engine. It did have advantages for emissions control, however, because of its more favorable surface-to-volume ratio. The most Chevy ever got from it was a rated 265 bhp.
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The first 454-cid Mark IV enlargement arrived for 1970. Shown is the 460-bhp LS-7 unit with 3x2 carbs.
The big-blocks were the culmination of Chevrolet's performance engine development. But these potent powerplants wouldn't take kindly to the anti-smog devices needed to meet stiffening emission standards beginning in 1973. That year, America would get its first "fuel shock," which ultimately would sentence big-inch high-performance cars to oblivion. Up to that time, Tonawanda was turning out 300,000 Mark IV V-8s annually. By the end of the 1976 model year, the big-block engine family would be gone.
