Far be it that anybody who talks about the performance of their car to stretch the truth about how well it does "If only they had a track to test it on." Well now, kiddies, it's time to put up or shut up, as the KIT CAR Challenge is now in session.
Developed over some serious bench racing a few months ago by the guys who bring you Street Rodder magazine every month, the idea for testing the performance aspect of our wonderful rides has grown into a serious endeavor. The concept of "I wonder what my car would do in the quarter-mile" can now be answered, as The KIT CAR Challenge pits the cold, hard numbers of on-track testing against other vehicles, including other kit cars as well as some late model production vehicles (so you know what you're up against at that traffic light).
We're currently using a portion of the California Speedway in Fontana, California, as a location to do most of our testing, but over time we hope to expand the KIT CAR Challenge to the East Coast, too. Andrew Schear, the Feature Editor at Super Chevy magazine is, besides being one of the better automotive photographers around, is also a bit of a hot shoe, and has taken on the responsibility of running the testing program for several of the magazines produced by the same division of Primedia (this magazine's parent company) that publishes KIT CAR. This gives us another constant to work with, allowing the individual vehicle to be the only variable in the equation.
In trying to even out the playing field, all of the numbers generated during the testing are corrected to the same criteria: every acceleration pass has a "Standard Day" correction, which is 60 degrees Fahrenheit with zero-percent humidity and at 29.92 inches of mercury. The correction is done via the algorithms of the Computech Systems program that manufactures our testing equipment (explained on the previous pages).
This month, the KIT CAR Challenge put two vehicles, a T-bucket and a 550 Porsche replicar, through their paces. The first test was with our chassis dyno, measuring the horsepower generated at the rear wheel from each vehicle. From there, we took the pair over to get them weighed, and then also figured the front and rear weight bias.
Next, we drove the world-famous Los Angeles freeways out to our test track and hit the quartermile. Our test driver, Andrew Schear, climbed into each of the cars and performed the first set of straight line time tests (60-foot, 0 to 30 mph, 0 to 60 mph, 0 to 100 mph, 50 to 80 mph, quarter- and eighth-mile, plus 60 to 0 brakin times).
We then moved over to the skidpad course, running three times counterclockwise on the inside of the circle and three times clockwise on the outside (to get an average g-force rating) and then, finally, through the slalom course. Having driven all sorts of vehicles and being the main test driver for our magazine group, Schear had some comments about both vehicles.
On the Porsche, he says "Jumping into the 550 instantly shocks the nerves back to the historic road racing era. Those cars were light and quick to respond, and the 550 replica was no different. Although noticeably more powerful than the original, the replica was nimble on the controls and felt like an extension of the driver's inputs. Our only wish would have been a more aggressive set of tires and Willow Springs Raceway at our fingertips."
When it came to the T-bucket, Andrew reveals "As we blasted down the 1320, raw power an strength were the adjectives of the moment. How else can one explain low 12s on a street radial? A rollbar and a set of serious slicks were the only elements keeping us from more aggressive testing, or should we say the high 11s. On the slalom, the '23 exhibited predictable movements and less-than-expected body roll. The excess of power-on-tap allows the driver to steer with the accelerator at will. Our proposal: autocross-not that we would, but the thought crossed our minds."