The song remains the same-horsepower has never been easier to make than it is today. For you normally aspirated fans, Ken Duttweiler slipped this small-block 347ci stroker motor beauty up on the dyno, and as soon as it hit 514 hp at 6,800 rpm, we were definitely interested.
To begin with, Duttweiler started with a basic Scat rotator package that offers a 4340 forged steel 3.40-inch stroke crank with I- or H-beam rods, and a set of flat-top SRP forged pistons with 11/416-inch ring packages that creates an incredibly strong bottom end. Duttweiler needed this to be durable because he planned on spinning this little stroker with a serious cam and head package.
Power is all about matching components. Duttweiler wanted to see what the new Trick Flow Specialties R-series Twisted Wedge heads would do on a medium-displacement Ford small-block, and this seemed like a perfect opportunity to test them out. The heads are the race version of the street Twisted Wedge Ford heads, complete with 206cc intake ports and a serious 0.500-inch raised exhaust port to overcome the 302's tendency to pinch the exhaust ports down to nothing.
The 2.08/1.60-inch valves are canted to unshroud the valves as they increase in valve lift and, combined with the 61cc chamber, create an optimal combustion situation. We didn't have time to flow-test these particular heads, but TFS's own flow sheets make these heads out to be winners, especially looking at the 0.300- and 0.400-inch valve lift flow numbers.
Contemporary engine theory places a great deal of emphasis on mid-lift flow numbers. The Comp mechanical roller cam that Duttweiler spec'd maxes the valve lift at slightly over 0.635 inch. But the theory states that emphasizing flow potential at around 65 to 75 percent of maximum valve lift (in this case roughly 0.410- to 0.475-inch valve lift) will generally improve the overall power curve, not just the top-end power. TFS's flow numbers are outstanding for this cross-sectional-size port with a 0.400-inch valve lift flow number of 242 cfm!
Duttweiler went with a recommendation from Comp on the camshaft and hit the 500hp mark with a custom spec grind that anyone can order by just giving them the specs in our cam spec box. This is certainly no slouch cam, and the idle vacuum numbers reinforce that with barely 8 inches of manifold vacuum at 950 rpm. That's another reason we didn't pull the engine down below 3,600 rpm since the torque wasn't anything to write home about below that level. That means you'd need at least a 3,000-rpm stall speed converter if you're running an automatic, or preferably a manual trans with a deep First gear.
The Victor Jr. intake was a natural choice to complement the head and cam selection, and Duttweiler also chose a 131/44-inch header package from Hooker to balance out the exhaust side. We ran this test through a 211/42-inch set of exhaust pipes leading to a pair of Borla Pro X/S stainless steel mufflers. To keep things simple on the water pump side, we also added a CSI electric pump to keep the engine cool.
Testing Car Craft's dyno guy Ed Taylor cranked the small-block up on the dyno, and after some simple tuning exercises to get the timing at 34 degrees and the jetting in the ballpark, it was time to make some noise. These dyno tests were truly fun because this small-block just loved to run. Peak torque on all the tests hovered right around 5,200 rpm, starting out at 449 lb-ft of torque; that's just shy of 1.3 lb-ft per ci, which is a great number. Peak horsepower swung in at a high 6,800 rpm, but this Ford also pegged the needle at 511 hp! Yeehaw.