Click Here to View the Ford Shelby GR-1 Concept Media Kit
- Front-engine/rear-drive, two-seat fastback supercar
- A salute to "performance art"
- Based on Ford GT architecture
- Carroll Shelby inspiration
| "Last year's Ford Shelby Cobra roadster concept only hinted at the possibilities for the Ford GT supercar architecture and our relationship with Carroll Shelby. The Ford Shelby GR-1 concept provides another glimpse at what the future could hold." – J Mays, Group Vice President of Design and Chief Creative Officer |  |
TAKING FORD'S PERFORMANCE CAR FUTURE IN A NEW
DIRECTION
The Ford Shelby GR-1 concept
springs from a long line of Ford performance project cars and quickly
establishes itself as one of the most contemporary and dramatic
front-engine, two-seat, fastback supercars. This running prototype reaches
closer to reality with a 605-horsepower, 390-cubic-inch all-aluminum V-10
engine, a road-tested version of the Ford GT suspension and a
stunning new polished-aluminum body.
Sensuous, perfectly proportioned and wholly modern, this show car builds on
the success of the Ford Shelby Cobra concept – the 2004 North
American International Auto Show (NAIAS) "Best in Show" winner – and
reinforces Ford's continued commitment to performance.
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A REALITY-BASED CONCEPT
Much like the original Ford GT and last year's Shelby Cobra concept
vehicles, the Shelby GR-1 was intended to be a fully engineered,
production-feasible roadgoing, drivable project vehicle.
"With the Ford GT and Ford Shelby Cobra concept, we have a tremendous
amount of experience quickly building high-performance cars, like the
Shelby GR-1, with world-class performance," says Phil Martens, group vice
president, Product Creation. "Our goal this time around was not to create
the ultimate top-speed, high-performance sports car. Really, we intended
to strike a better balance of design, capability and usability that might
appeal to someone considering a Ferrari 575M Maranello."
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SHAPELY EXTERIOR
The Ford
Shelby GR-1 is a sinewy, athletic design with a long hood that blends
seamlessly into the teardrop-shaped cabin with a fastback roofline and
falling upper fender line. The car looks as if it is in motion, even when
it is standing still.
The optimized wheel arches and compact overhangs define the striking stance
while the strong shoulder line and smooth, taut surfaces express the car's
graceful yet athletic nature. The polished aluminum body panels further
express the highly sculptured surfaces and define the emotional proportions
in dramatic fashion.
The front of the Shelby GR-1 concept is dominated by an air-intake aperture
and airflow splitter, directing cool air into the engine bay and wheel
wells, while air vents on the upper surface of the hood exhaust hot air
from the radiator. Additional intakes and vents perforate the body side to
ensure cooling throughout.
The front corners of the Shelby GR-1 are dominated by substantial front
wheel wells housing 19-inch wheels and tires and trapezoidal High Intensity
Solid State (HISS) headlamps that float above the wheel arches. This highly
technical lighting package provides powerful illumination in a very compact
package, allowing freedom of design without sacrificing nighttime driving
visibility.
In the rear, a distinctive Kamm tail tapers to improve wind drag and
features integrated transmission cooler outlets and a ground-effects
venturi. It is further defined by a strong concave section and bold
vertical taillamps.
The Shelby GR-1 concept sits on 19-inch, 12-spoke milled aluminum wheels
and features Goodyear 275/40R-19 tires in the front and 345/35R-19 tires in
the rear, mated with the unique Tire IQ™ system, which allows the
driver to monitor precise tire performance.
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RACING-INSPIRED INTERIOR
The Shelby GR-1 concept's butterfly doors have distinctive teardrop-shaped
side-glass graphics that create an elongated appearance, blending
seamlessly into integrated door-release handles.
The graceful upward glide of the doors leads into the race-inspired
interior that features seats with carbon shells and fixed backs. The
carbon shells are connected directly to the sill and tunnel via lightweight
aluminum spaceframe attachments and can be adjusted fore and aft by way of
an accessible pull ring on the seat cushions' leading edge. The seats
incorporate removable Alcantara comfort inserts that are individually
tailored to the occupants' body type.
The interior door panels feature air-vent apertures and integrated
"door close" pockets. The door release employs a pull-ring themed design
with quick-release slide action and an illuminated door lock/unlock
indicator. The exposed rear bulkhead cross-car structure braces to the roll
hoop and features a snorkel air-register outlet that controls the ambient
cabin climate.
Interior cabin technology focuses on driver comfort, enjoyment and
entertainment. The instrument panel sports a full complement of analog
gauges, including a combination analog tachometer with floating watch-like
elements and digital speedometer. The tachometer housing has integrated
air registers and an additional Noise Reduction Technology (NRT) output
speaker.
The centrally mounted Tire IQ™ display is a sophisticated driver's
aid designed to inform, warn and even entertain. The Tire IQ™ system
provides the driver and passenger with an animation of vital tire
temperature and pressure statistics (via sensors in the tire), along with
other key vehicle dynamics such as cornering G forces (via an onboard
accelerometer).
The center console features integrated toggles that control the fuel pump,
ignition, windows, hood and rear-glass release. The race-inspired
push-button starter and "baseball grip" gear knob are situated ahead of the
parking brake, which has been incorporated into the tunnel armrest. The
quick-release steering wheel has integrated headlamp, wiper and direction
indicator controls.
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Special attention has been paid to noise reduction on the interior. The
rear hatch stowage compartment features a removable MP3/Amp and NRT
console, while audio input, output and recording speakers are integrated
into the headrest protection wings on each seat. The speakers can provide a
combination of the following:
- Noise-reducing sound waves (NRT) for improved highway cruising noise levels
- Play or record (for playback) pace notes
- MP3 Audio
Throughout the interior, the leather trim is in slate gray, with
color-matched perforated Alcantara leather featured on touch zones such as
the gear knob, parking brake, steering wheel, door inserts, and
instrument/Tire IQ™ binnacles. Functional zones such as dials, door
release and center console switchgear have been finished in a combination
of anodized gunmetal finishes.
Ambient cabin lighting is neatly packaged behind the central headlining
panel; an indirect blue glow appears around the periphery offset of the
panel. The headliner and upper doorframes are trimmed with a woven
aluminum-metalized fabric that lightens the interior ambiance and heightens
the slate grey tones of the leather and Alcantara trim. The dark
gunmetal-gray flooring also is trimmed in the hard-wearing metalized
fabric.
PROVEN CHASSIS COMPONENTS
From
the outset, the Shelby GR-1 concept team intended the concept to perform at
supercar levels but with a more "mature" feel biased a little more toward
driver comfort than the Ford GT – widely noted for its balance of
dynamics and road manners – and last year's Ford Shelby Cobra
concept.
They started by attaching massive 19-inch wheels and tires using the Ford
GT suspension system with a few modifications to accommodate the increased
weight of a front-engine setup. The new Ford GT earns praise for its
combination of agility, grip and easy-to-drive character, a reflection of
its sophisticated suspension design and the expertise of its chassis
engineers. The Ford Shelby GR-1 concept applies the best of the GT
suspension to a supercar with different performance intentions.
"The biggest difference between the GR-1 concept and our past efforts is
the emphasis on overall driver comfort," says Manfred Rumpel, manager, Ford
Advanced Product Creation. "That extends all the way to the compliant yet
high-performing capability we built into the suspension."
DESIGNED-IN SUSPENSION COMPLIANCE
A double-wishbone suspension design with unequal-length aluminum control
arms, coil-over monotube shocks and stabilizer bars is used front and rear.
The upper control arms are identical at all four wheels and are made with
an advanced rheo-cast process that allows the complexity of form associated
with casting while retaining the strength of forging. The metal, heated to
just below its melting point, is the consistency of butter when it is
injected into a mold at high pressure. Pressure is maintained as the part
cures, preventing porosity in the final product for exceptional
strength.
The steering rack also is borrowed from the Ford GT, with a few
modifications. The steering, like the Ford GT's, draws on Ford's global
driving dynamics DNA introduced with the Ford Focus' industry-leading
steering column featuring light efforts, low friction and high stiffness.
Braces between the front shock towers and below the isolated engine mounts
improve torsional rigidity and aid steering response.
BIG, POWERFUL BRAKES
With more
than 600 horsepower available at the throttle, the brake pedal had to be
equally powerful. The team set braking distance targets comparable with
today's best supercars and turned to the Ford GT braking system for
suitable components.
Brembo "monoblock" one-piece aluminum brake calipers with four pistons each
grab cross-drilled, vented discs at all four wheels. The discs are a
massive 14 inches in front and 13.2 inches in the rear, for fade-free
stopping power. Brake balance is biased slightly to the front wheels to
aid stability.
For packaging reasons, the team devised a novel offset actuation linkage
for the brake booster and master cylinder, so the brake pedal can be placed
in a normal position even though its hardware is off to the side of the
engine bay. The kinematic linkage concept for the remote booster actuation
was an idea borrowed from the European Ford Mondeo.
"The unique remote booster had to be just right so you can slow the car in
a linear and proportional way," says Rumpel. "This means the pedal effort
and travel are proportional to the vehicle deceleration rate, which is
especially important in high-performance sports cars."
The one-piece, 12-spoke BBS wheels are wrapped by Goodyear Z-rated racing
slicks, size 275/40R-19 in front and 345/35R-19 in the rear.
SUPERCAR POWERTRAIN
The heart of
any supercar is its engine, and the Ford Shelby GR-1 concept does not
disappoint.
Inspired by the biggest, baddest engine of them all – the renowned
427 – Ford engineers created a new aluminum-block V-10 to power last
year's Ford Shelby Cobra concept. This 390 cubic inch, 6.4-liter engine,
reprised for service in the Shelby GR-1 concept, is adapted from Ford's MOD
engine family. It delivers the rush of raw power – with 605
horsepower and 501 foot-pounds of torque – associated with that big
1960s V-8 powerplant without the aid of supercharging or
turbocharging.
This combination of brute force and thorough engineering has created a
rarity in the world of auto shows – a concept car that can actually
do, rather than merely promise, 0-60 in under four seconds, and would
easily exceed 200 mph if not electronically limited.
"After I drove last year's Cobra concept, I knew we had a winner in the
6.4-liter V-10," says Carroll Shelby, renowned race driver and consultant
on the Ford Shelby GR-1 concept. "We decided to transplant that engine
directly into the GR-1 with practically no changes, right down to the
rear-mounted transmission, which really helps the weight
distribution."
For approximately three years, the Ford powertrain team has been working on
an all-aluminum V-10 targeted at ultimate, naturally aspirated performance.
When they bolted this modern-day big-block into a Mustang chassis for
evaluation, it only took one drive to confirm its potential.
"When we found out there was yet another concept car with the Shelby name
on it, we knew it begged for this engine," says Graham Hoare, director,
Ford Research and Advanced Engineering. "Although it's not yet ready for
production, we've reached a credible engineering level for such a serious
concept car – and it has a modern soul that matches the Shelby
mission."
ADVANCED TRANSMISSION
While the
Ford Shelby GR-1 concept shares a significant amount of technology with the
Ford GT and the Shelby Cobra concept, the team met several unique
engineering challenges head-on.
First, the six-speed manual transmission had to be packaged in a way that
would not compromise the occupant footwells. "One of the unique solutions
we delivered for the GR-1 concept was the design, engineering and
development of a torque-tube driveline, which allows placement of the
transmission in the rear of the car behind the occupant zones," says
Rumpel.
The rear-mounted six-speed transaxle is identical to the high-performance
unit in the Ford GT, with an integral limited-slip differential to drive
the rear wheels. Based on the engine's 7,500-rpm redline and the wide drive
ratios, this Ford Shelby GR-1 concept has a theoretical top speed of around
200 mph, although it's electronically limited – for now.
The transaxle application was necessitated by the desire to fit such a
large engine into a compact coupe while leaving enough room for the
driver's legs and feet. With a conventional transmission mated to the back
of the engine, the tradeoff between hood length and passenger room often
makes for a cramped footwell and dramatically offset pedals.
Mounting the transmission in the rear helped to more evenly distribute the
vehicle's weight and increased the footwell area from 16.5 inches to 21.7
inches, resulting in almost three inches more legroom than in similar
performance vehicles.
The legroom-saving torque-tube driveshaft runs at engine speed,
considerably faster than typical driveshafts mounted to rear of the
transmission. The spinning inner shaft is supported within a stationary
outer tube that stabilizes the engine and transmission in bending and in
torsion. The inner shaft taps crankshaft torque via a twin-disc,
small-diameter clutch mounted at the rear of the engine.
Computer-aided design was essential in helping the first prototype come
together smoothly.
"Because they spin so much faster than driveshafts, these torque tubes can
be a challenge to execute properly in terms of vibration," says Rumpel.
"Using our electronic tools, we optimized the location of the driveshaft
support bearings, and it ran smoothly on the very first try. This type of
modern engineering tool gives us a development advantage that pioneers like
Carroll Shelby could only dream about."
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UNIQUE SOLUTIONS
Additional
improvements from the Ford Shelby Cobra concept include new, twin fuel
fillers exiting the bodywork just aft of each sideview window and mid-way
up the rear quarter panel bodywork. These racing-inspired devices feed two
individual 10-gallon capacity fuel tanks that reside inside the structural
chassis directly behind the passenger compartment.
The battery was also relocated to the rear of the vehicle, deep inside the
luggage compartment, further aiding vehicle weight distribution and better
shielding the battery package from the intense heat of the engine
compartment. A new cooling system, evolved from the Shelby Cobra concept,
includes a unique hood with twin portals to feed air into the engine
compartment.