Post by owright1 on Oct 3, 2011 13:51:42 GMT -5
HOBBY STOCK FOR SALE. THE CAR HAS A 327 SMALL BLOCK ENGINE. NEW SEAT BELTS WERE INSTALLED LAST RACE SEASON. I ALSO HAVE A NEW OIL PAN FOR THE CAR (NEEDS INSTALLED). I HAVE NUMEROUS PARTS FOR A 350 ENGINE AS WELL, AND A FAIRLY NEW TORQUE CONVERTER TO THROW IN WITH THIS DEAL. I HAVE RACED WITH THIS CAR FOR THE LAST TWO SEASONS IN LOVELOCK, IT RUNS GREAT....I'M ASKING $1,750.00 OR BEST OFFER FOR THE CAR, AND PARTS. CALL ME ME IF INTERESTED. TEL: (775) 200-2453 OR (775) 273-2012.
For you engine buffs, "The 327 was only in production for eight years, but in that time the engine would become a legend among small-block aficionados. What made the 327 so efficient was its large (for a small-block), 4-inch bore that readily accepted big-valve heads, combined with the relatively short 3.25-inch stroke. With standard small-block 5.7-inch rods, the combo yielded a 1.75:1 rod/stroke ratio, very close to the 1.80-1.85:1 ratio considered by many professional engine builders as optimum for an acceleration engine. Unlike with the later, longer-stroke small-blocks, installing longer aftermarket rods does not severely compromise piston design. In terms of cylinder feeding versus displacement, the 327-inch engine size seemed to dovetail perfectly with available cylinder-head port volumes and camshaft designs.
For all these reasons, many believe that, with the possible exception of the even rarer '67-'69 Z/28 302, the 327 has the most horsepower-per- cubic-inch potential of any small-block. That's important if you're racing in a class based on pounds per cubic inch; otherwise, raw inches are still king. And good luck finding a rebuildable core that'll clean up at 0.030-inch over."
For you engine buffs, "The 327 was only in production for eight years, but in that time the engine would become a legend among small-block aficionados. What made the 327 so efficient was its large (for a small-block), 4-inch bore that readily accepted big-valve heads, combined with the relatively short 3.25-inch stroke. With standard small-block 5.7-inch rods, the combo yielded a 1.75:1 rod/stroke ratio, very close to the 1.80-1.85:1 ratio considered by many professional engine builders as optimum for an acceleration engine. Unlike with the later, longer-stroke small-blocks, installing longer aftermarket rods does not severely compromise piston design. In terms of cylinder feeding versus displacement, the 327-inch engine size seemed to dovetail perfectly with available cylinder-head port volumes and camshaft designs.
For all these reasons, many believe that, with the possible exception of the even rarer '67-'69 Z/28 302, the 327 has the most horsepower-per- cubic-inch potential of any small-block. That's important if you're racing in a class based on pounds per cubic inch; otherwise, raw inches are still king. And good luck finding a rebuildable core that'll clean up at 0.030-inch over."