(from General Motors
Press Release) The 2008 NHRA POWERade season will see the
introduction of the Pontiac GXP in Pro Stock competition, and drag
racing enthusiasts will get their first look of the new GXP in
action at the third annual Pontiac Pro Stock Showdown at The Strip
at Las Vegas Motor Speedway on Feb. 1 -2, and then a week later at
the 48th annual CARQUEST Auto Parts Winternationals in Pomona,
Calif., on Feb. 7-10. Designing and constructing the new GXP
involved an enormous investment in time and resources on behalf of
Pontiac and GM Racing, and the final racing product combines sleek,
sporty, aerodynamic features that closely resemble the race car's
Pontiac G6 GXP showroom counterpart.
Initial plans to design and build the new GXP began approximately 17
months ago when GM Racing Group Manager Dan Engel met with NHRA tech
officials (Danny Gracia, Bob Blackwell and Don Taylor) at the 2006
Mac Tools U.S. Nationals in Indianapolis. A white Pontiac G6 was
delivered to the grounds at O'Reilly Raceway Park by a local
Indianapolis dealer, and the group from GM and NHRA began the
process of marking and taping off key areas of the production car
that would be crucial to the development of the new GXP Pro Stock
Car, going over some basic styling features and getting a rough idea
of just how the race car should look. With the long wheelbase and
other inherent features of the production car, detailed planning,
styling and designing a preliminary blueprint for the Pro Stock GXP
"Whenever we create a new race car we try to accomplish more than
just introducing a new model," Engel said. "We also want to apply
everything we've learned since building the older design so that we
can keep moving forward, whether it's in the area of aerodynamics,
strength of the body, safety, etc., and we also want the race car to
closely resemble the production car. We've been fortunate to
accomplish all of those objectives with the GXP.
"The rear axle is back quite a bit on the production car, and it's
actually a pretty long wheelbase for the overall length of the car.
We were somewhat concerned how it would look if we moved the axle
forward, but it actually looks pretty good on the race car."
Following the preliminary design steps at the '06 U.S. Nationals,
the GXP production coupe was then shipped to Don Ness Racecraft,
just north of Minneapolis, where a "splash" of the car was taken and
a mold built based on the body of the production car. From this
splash, or fiberglass replica of the GXP production coupe, engineers
then embarked on the long, arduous task of morphing the piece into a
Pro Stock race car.
"The first thing we had to do was get the wheelbase at 105 inches by
either moving the rear axle forward or backward," Engel said. "After
we got the correct wheelbase, then we could get the main cab located
to where it needed to be relative to the wheelbase.
"The second thing that was important was getting the 45-inch
overhang from the centerline of the front axle to the nose. That's
an NHRA spec, so we knew what to do. Once that was completed that
told us where the engine and the firewall were going to be. The
45-inch overhang and where the engine has to be relative to the
front axle dictates the location of the firewall and pretty much
positions the cab for us."
With the body now roughly located on the front and rear axles,
engineers began tweaking the mold and refining the shape of the new
Pontiac Pro Stock car, cutting and bonding on pieces, smoothing
edges, and cutting and bonding even more fiberglass until arriving
at the correct shape. This new piece is referred to as the "plug."
"That's quite a bit of work," Engel explained, "Not only keeping the
integrity of the shape of the production GXP, but also paying
attention to how the new shape will affect the aerodynamics of the
body while staying within the dimensions set forth by the NHRA. That
alone took several months to complete."
While work was being done to complete the primary plug, the first
chassis for the new GXP, one almost identical to the GTO, was also
being constructed at Don Ness Racecraft. At the same time,
additional work on the plug was finalized in preparation for the
first of two wind-tunnel tests, and upon completion, the plug was
shipped to the GM Aero Lab in Warren, Mich.
"In the wind tunnel, the plug has tires, a race engine to simulate
the weight of the car, parachutes, headlamps, tail lamps, a hood
scoop, and it has just about everything the race car would have,"
Engel explained. "We put a nose cone in the hood scoop so that we
can get more consistent data from previous tests. During the second
wind-tunnel test, we invite NHRA officials and that is when they
give us the okay as far as how the body looks."
With the construction of the Chevy Cobalt back in 2004, the NHRA
began implementing a minimum number of mandates for the construction
of Pro Stock cars. These mandates covered such obvious areas as
height of the car, width of the car, front overhang, and rear
overhang, to name a few. Prior to the GXP's first wind-tunnel test,
NHRA officials thoroughly measured the car to make sure it too
complied with these regulations. When the first body was finished
and mounted they went back and double-checked the race car to make
sure it was the same dimensionally that is was prior to the first
wind-tunnel test. A few changes to the car were made at the first
wind-tunnel test with only slight adjustments made during the second
"Just as when we built the Cobalt and the GTO, the NHRA has been a
part of this process from the very beginning," Engel said. "We have
an excellent working relationship with the NHRA and they've been
great to work on everything we've done with them."
Following the second test, the plug was transported to Roush
Industries in nearby Livonia, Mich., where the Pro Stock molds were
made that would be used to create the actual body panels. But before
the molds could be made, a considerable amount of additional prep
and finish work had to be completed to make sure the body was
perfectly smooth and symmetrical from left side to right side. Coats
of sealer and primer were then applied to the plug to get it ready
for the construction of the first body-panel molds.
"Like the Cobalt, the GXP was designed without using CAD," Engel
said, "and therefore, making it perfectly symmetrical was very, very
challenging. There was a lot of prep work that needed to be done.
When you do things in CAD, you can basically cut a line down the
center of the car lengthwise, take either the right side or the left
side, make a mirror image of it in CAD and put it on the other side
of the car. That gives you a perfectly symmetrical car. But when you
do it by hand, like we did with the Cobalt and the GXP, the only way
to make sure it's symmetrical is by making templates and taking them
from one side of the car to the other to make sure they're identical
Ė and they have to be absolutely spot-on perfect.
"You can get into a situation where if the body isn't perfectly
smooth, it won't look good coming out of the molds. Secondly,
there's always an issue of getting the molds off when you first make
them because you donít want the molds to stick to the plug. That's
why you have to put layers of sealer and primer on it just to make
sure the mold wonít stick to it when you make the molds."
After the body panel molds were completed, Roush then created a GXP
body that was shipped back to Don Ness Racecraft where it was
mounted to a chassis.
"It used to be that when the chassis guys got the body there were
lots of small pieces," Engel said. "There were front fenders and
hoods and front fascia, but when we did the Cobalt we went to what
we call a one-piece body. That's a little bit of a misnomer, it's
not really one piece, but it's a lot fewer pieces than it used to
be. We combined some of the pieces, for example the front clip, it's
all one big piece as opposed to a hood, a front fender, a left front
fender, a right front fender, and a fascia. Now it's just one piece
which makes it easier to mount and work with the car."
Engel and NHRA tech officials then arrived at Ness' shop to inspect
and measure the GXP to make sure it matched the dimensions of the
body before it was shipped to Roush. The NHRA then checked the
templates to make sure they fit the body perfectly and at this point
a master set of templates were made. It is from this master set that
chassis builders will make cars for their customers.
"We build the first set of production templates at Don Ness' shop,"
Engel said. "We give them to NHRA and they become their master set.
Besides measuring the car, NHRA also checked out the templates to
make sure they fit the car. Since these are the templates GM has
built under the supervision of NHRA, these will be the templates now
used at the racetrack. They have to make sure the templates fit
perfectly because when that car shows up at an NHRA national event
for the first time, the NHRA tech department will not only inspect
the car, they will use all of their templates to make sure the body
Pontiac Pro Stock competitors who will be racing the new GXP are
excited about the prospects for the new race car and are looking
forward to climbing behind the wheel of this new design.
"If you ask me, this new GXP looks pretty slick," said two-time NHRA
champion Jim Yates. "It's an incredibly aerodynamic vehicle. Pontiac
and the engineers at GM did a great job designing it, and we're
excited about getting it on the racetrack and seeing what kind of
number it will put on the board."
"We've had lot of success driving Pontiacs over the years," said
three-time POWERade champion Greg Anderson. "Every time GM engineers
come out with a new Pro Stock race car it's always a step ahead of
the previous design, and the added benefit is that the race car
closely resembles the G6 GXP that you see in your Pontiac showrooms.
The new GXP is something to get excited about and we're pretty
confident that NHRA Pro Stock fans are going to like it as well."