CAMARO TURBO AUTOX CONCEPT DESIGNED TO CARVE CONES
• Performance handling, braking, airflow enhancements challenge tuners on the track
LAS VEGAS ― The new Camaro Turbo AutoX concept combines the LTG 2.0L turbocharged engine wîth a performance suspension, brake system, air intake and exhaust system. It melds the Camaro's excellent power-to-weight ratio wîth more agile handling that's ideal for autocross enthusiasts.
'This concept pushes Camaro in a new direction, integrating new performance parts that make the most of the turbocharged Camaro's lightweight dynamics,' said Jim Campbell, GM Ú.S. vice president of Performance Vehicles and Motorsports.
The concept features the Chevrolet Performance suspension lowering kit, which includes stiffer springs and specifically tuned dampers and lowers the ride height up to 0.75 inch (20mm). It is matched wîth a concept 'plus performance' handling kit including larger stabilizer bars and stiffer suspension links. A concept strut tower brace under the hood provides additional chassis stiffness. The whole system contributes to improved roll stiffness and quicker turn-in performance.
AutoX rolls on concept Chevrolet Accessories 20-inch aluminum wheels and Goodyear 285/35R20 performance tires. Engineers added Chevrolet Performance's front brake kit, featuring six-piston calipers and 370mm, two-piece slotted rotors.
For maximum performance lap after lap, a concept cold-air intake system has been fitted to the 2.0L turbo engine and a calibration upgrade to its controller optimizes performance across the rpm band. The turbocharger generates up to 20 pounds of boost and its twin-scroll design helps make the most of the usable power from the engine, practically eliminating turbo lag and helping deliver a broad powerband.
When it's time to change gears, the concept's six-speed manual transmission features a concept short-throw shifter to make quicker work of it.
A Chevrolet Performance exhaust system wîth a polished 4-inch outlet offers a throatier exhaust note and reduces backpressure by approximately 14 percent. An Active Noise Cancellation calibration update is included for vehicles wîth the Bose® stereo system.
'It's a great engine for an autocross course because the strong torque production means you can hold a lower gear and just run through the cones without constant shifting,' said Mark Dickens, director of Performance Variants and Parts. 'And wîth the concept handling package providing amazing handling, this car is simply a blast to drive ― and a real surprise for some of the tuner drivers.'
Track-challenging style 'Appearance is very important to the owners of vehicles like this, and the Camaro Turbo AutoX concept was designed to be both race- and show-worthy,' said Adam Barry, Chevrolet designer. 'The new Shock Yellow color on the concept reaches out to the new generation of enthusiasts and explores how the Gen 6 Camaro looks in brighter, bolder hues.'
The Shock Yellow color is complemented wîth Pearl Nickel hood stripes and satin Carbon Flash Metallic accents on the hood vents, rockers and rear diffuser. The vented hood comes from the Camaro SS, while the rear diffuser and rockers were borrowed from a Chevrolet Accessories ground effects kit. The front splitter is also from the SS model, but is modified for the concept. There's a front tow hook, GoPro camera mount, export side marker lamps and an all-new, accessory rear spoiler that's making its debut on the concept.
The black, leather-trimmed interior mixes style wîth track-ready functionality, including a suede-wrapped flat-bottom §teering wheel and shift knob and boot, and a carbon-fiber instrument panel insert. A bolt-in harness bar mounts a five-point safety harness.
The Camaro Turbo AutoX concept was unveiled today at the SEMA Show, sharing the floor wîth approximately 20 additional Chevy cars and trucks.
Follow the action at ChevySEMA.com, #CHEVYSEMA, @ChevroletPerformance on Instagram and Chevrolet Performance on Facebook.
Founded in 1911 in Detroit, Chevrolet is now one of the world's largest car brands, doing business in more than 115 countries and selling more than 4.0 million cars and trucks a year. Chevrolet provides customers wîth fuel-efficient vehicles that feature engaging performance, design that makes the heart beat, passive and active safety features and easy-to-use technology, all at a value. More information on Chevrolet models can be found at www.chevrolet.com.Source - Chevrolet
The Chevrolet Camaro was introduced in 1967 as a compact car specifically built to provide competition for the highly popular Ford Mustang. This pony car was built atop of the same F-Body platform as the Pontiac Firebird, which had a similar production lifespan of 1967 through 2002.
During the preproduction stages of the Chevrolet Camaro, General Motors codenamed the vehicle 'Panther'. The name 'Camaro' was decided upon before production began. The word 'Camaro' in French is slang for 'friend' but in pony-car slang, the name means 'Mustang killer'.
During its production lifespan, there were four generations produced. The first generation lasted from 1967 through 1969. The second generation lasted from 1972 through 1981. The third generation lasted from 1982 through 1992. The fourth generation lasted from 1993 through 2002. The fifth generation is believed to begin production in 2007; a concept was shown at the 2006 Detroit Auto Show.
When the car was introduced in 1967, it was available in two bodystyles, a coupe and convertible. It shared many mechanics with the Chevrolet Nova and built atop a unibody chassis. The base engine was a 3.7 liter inline-six cylinder capable of producing 140 horsepower. Power was sent to the rear wheels courtesy of a Saginaw three-speed manual gearbox. A Muncie four-speed manual and a two-speed PowerGlide automatic were offered as optional equipment. Near the end of 1967, a Turbo Hydra-Matic 350 became available on the SS396. In 1969 the TH350 was offered on the Camaro as optional equipment, in place of the PowerGlide which was no longer offered. 14 inch wheels were standard.
To compete in the pony-car arena, General Motors offered a 5.7 liter eight-cylinder engine in 1967 that produced nearly 300 horsepower.
The Camaro was highly customizable, with over seventy factory and forty dealer options available. the z28 option was not mentioned in the sales literature so many buyers were unaware of its existence. Due to the lack of press about the Z28 option, only 602 examples were produced. The package included many performance enhancements such as a 4.9 liter small-block engine, front disc brakes, Muncie 4-speed gearbox, suspension improvements, 15 inch Rallye wheels, and power steering. The aesthetics of the vehicle were segregated from the other Camaro's with racing stripes being placed on the hood. The Z28 package was offered by GM specifically to comply with the Sports Car Club of America (SCCA) Trans Am racing series that required an engine size of five-liters or less. Also, the vehicle must be sold to the general public.
The SS (Super Sport) package included many performance and aesthetic upgrades and was popular with more than 34400 examples created. Under the hood was a 5.7 liter eight-cylinder engine with a 6.5 liter big-block offered as optional equipment in 1968. On the grille, horn button, and gas cap were SS badging. Non-functional air-inlets adorned the front hood.
The RS (Rally Sport) package was basically a cosmetic upgrade. The headlights were hidden, the taillights received minor alterations, and the exterior rocker trim was revised. RS badging could be seen throughout the vehicle. This was the most popular option ordered in 1967 with over 64840 examples produced.
The RS and SS packages could be ordered together, creating the RS/SS Camaro. The combination included both the aesthetics of the RS and the performance of the SS. A Camaro RS/SS convertible with a 6.5 liter engine paced the Indianapolis 500 race in 1967.
With over 220900 examples produced in 1967, the Camaro proved to General Motors that the public was starved for small, performance, pony-cars.
In 1968 the Camaro received minor aesthetic and mechanical improvements. Side market lights were added, the grille became more pointed, and the taillights were now segregated. The side vent windows were removed. Performance was improved slightly by the staggering of the shock absorbers. On some of the models, the single-leafs were replaced by multi-leaf springs.
Buyers became aware of the Z28 package in 1968 and ordered nearly 7200 examples. The RS continued to be the most popular option with 40977 examples produced. The SS accounted for 27884 of the 235147 total Camaro's produced in 1968.
For 1969 the Camaro became safer and faster. General Motors mandated that the Camaro could not come from the factory with engines larger than 6.6 liters. To bypass this rule dealerships such as Yenko Chevrolet, Dana Chevrolet, and Nickey Chevrolet offered the Camaro with the 7 liter, big-block, L-27 corvette engine producing 425 horsepower. These performance options became so popular that in 1969 Chevrolet began offering two Central Office Production Orders (COPO) options, numbers 9560 and 9561. The COPO 9561 option included the L-72 Corvette engine. In total, there were 1015 Camaros equipped with the L-72 Corvette engine.
The COPO 9560 option included a 7-liter, big-block, ZL-1 engine. The engine was constructed of aluminum to help reduce the overall weight. The engine was reported to have produced around 430 gross horsepower but in reality it was closer to 550. With only 69 examples produced it is one of the rarest and fastest of all Chevrolet Camaros.
Most of the 1969 Chevrolet Camaro mechanics remained unchanged. The aesthetics was a different story. The grille was redesigned and the headlights now sat farther back adding to the aggressive features of the car. Newly reshaped door, rear quarter panel, and rear valence gave the 1969 Camaro a smooth, low, and wide stance. The production of the 1969 Camaro, which continued into December of 1969, was the final year for the first generation Camaro.
The second generation Camaro began production near the middle of 1970. The body had been redesigned and the suspension was greatly improved. The rest of the mechanics remained mostly unchanged from the prior years. The biggest change was the base engine, which was now a 4.1 liter inline-six capable of producing 155 horsepower. There was no convertible option offered, only a 2+2 coupe configuration.
The big-block eight-cylinder had been bored to 402 cubic-inches but still retained its 396 badging. The Rally Sport, Super Sport, and Z28 packages were still available. The Z28 now featured a 5.7 liter engine that produced 360 horsepower.
1972 was not a good year for the Camaro. For 174 days production ceased at GM's assembly plant in Ohio due to a UAW strike. This resulted in 1100 Camaro's failing to meet 1973 Federal bumper safety standards. In total, only 68,656 examples were production. Less than a thousand were the SS package so General Motors decided to no longer offer the package after 1972. This meant the big-block 396 cubic-inch engine was no longer offered.
The Camaro, much like the rest of the industry, had to adapt to new government and insurance safety and emission regulations. This meant new safety features like larger bumpers needed to be affixed to the car that could protect the vehicle and its occupants at certain speeds. Engines were detuned to comply with safety and emission concerns. The cars became safer but their performance was seriously crippled. This was true for the Camaro in 1973 when its highest producing engine was a 350 cubic-inch V-8 that produced 245 horsepower.
New for 1973 was an LT option which included impact-absorbing bumpers. The Camaro grew in size in 1974 due to a forward sloping grille and new aluminum bumpers. Rectangular bumpers replaced the round taillight designs. Sales of the Z28 package continued to decline so the decision was made to discontinue the option after 1974.
Horsepower was measured in NET rather than gross rating beginning in 1975. This meant that the reported horsepower was much lower than in prior years. The 350 cubic-inch V8 was now rated at about 155 horsepower.
In 1977 the Z28 was re-introduced in an effort to revitalize the muscle-car persona of the Camaro. The base Camaro's were outfitted with air-conditioning and an automatic transmission. A Borg-Warner Super T-10 four-speed manual gearbox could be ordered as optional equipment.
1978 marked the first year for the T-top option on a Camaro. The Camaro was given larger taillights and new bumpers.
As vehicles became safer, they became slower. The public shifted from wanting performance to luxury. Oil embargos and rising fuel costs had made the engines smaller but more fuel efficient. For 1979 the LT package was replaced with a luxurious Berlinetta that included special wheels, paint, emblems, and interior.
1979 was a very strong year for Camaro sales with 282,571 examples being sold.
1980 and 1981 saw very few changes. The hood scope on the Z-28 was revised to help siphon air to the engine.
In 1981 sales were down considerable to just over 126,000. This would be the final year for the second generation Camaro.
In 1982 General Motors introduced the third generation of the Camaro. The vehicle was stylish and versatile, earning the coveted Motor Trend magazine's Car of the Year. Both aesthetically and mechanically, the vehicle was improved. The suspension was upgraded making it more capable in the corners and at speed.
This was the first year the Camaro was equipped with a factory fuel-injected engine. A four-speed automatic gearbox replaced the three-speed unit. A five-speed manual gearbox was also available. Due to rising concerns of oil shortage, a four-cylinder engine was offered for part of 1982.
6000 examples of the Z28 Camaro were sold to commemorate the return of the pony-car to the Indianapolis 500. The special-edition vehicles were painted in two-tone silver and blue paint with orange pin-striping.
To honor the International Race of Champions, Chevrolet introduced the IROC-Z in 1985. The package included an improved suspension, decal package, and a 305 cubic-inch L98 Tuned Port Injection system borrowed from the Corvette. The IROC-Z was featured on Car and Driver magazine's Ten Best List for 1985.
The L69 small-block engine was offered from 1983 through 1986. The LB9 small-block was introduced in 1985; the L98 small-block was introduced in 1987; the LO3 was introduced in 1988. The LB9, L98, and LO3 stayed in production until 1992.
1992 was the final year for the third generation Camaro. 1993 marked the beginning of the fourth generation which persisted until 2002.
New technology and material made the fourth generation greatly improved over the prior years. Weight was reduced with the use of plastic body panels sitting atop a steel space frame. Performance was increased thanks in part to a better suspension system. In 1993 Chevrolet offered the LT1 eight-cylinder engine, which had been in production for a year on the Corvette, on the Camaro. A six-speed manual gearbox was offered with the LT1 engine.
The Camaro returned to the Indianapolis 500 as the honorary pace car in 1993. To commemorate this historic accomplishment, Chevrolet offered a limited quantity of special edition Camaro's, painted in a black and white color scheme.
The design and mechanics remained mostly unchanged over the next few years. Minor revisions were made to comply with newly introduced emission standards. Mechanical changes were made to correct problems that had been found throughout the years.
In 1996 the RS package and the SS package were re-introduced. The RS was an appearance option for the six-cylinder Camaro's while the SS was both an appearance and performance package for the eight-cylinder cars.
1997 marked the 30th anniversary of the Camaro. A 30th Anniversary Package was offered to honor this accomplishment. The vehicles were painted white with orange stripes. 100 of the Anniversary Camaros were given the LT4 engine with 330 horsepower; a thirty-eight thousand dollar price tag accompanied the vehicle.
The interior of the Camaro was modernized in 1997 and again in 1998, although the 1998 improvements were minor in comparison to what transpired the prior year.
The body design was drastically changed in 1998, mainly in the front. Round headlights replaced the square design. The headlights were flush, inline with the rest of the body. A new grille and bumper were used, both positioned a little differently to mimic the headlight changes. A new powerful, lightweight, all-aluminum LS1 power-plant retired the LT1 unit. The OHV LS1 was borrowed from the Corvette and slightly detuned to produce just over 300 horsepower. To handle this extra power, the disc brakes were enlarged and the suspension was upgraded.
Total production for 1998 was 48490. This was disappointing for General Motors, especially with the newly revised body and powerful options. The lowest production year for the Camaro occurred in 2001 with just over 29000 examples being produced. This was due to low sales and production ceasing early to begin work on the 35th Anniversary 2002 cars.
2002 marked the final year for production of the fifth generation Camaro. The styling and mechanics were unmodified, carrying the same design from 1999.
A special 35th Anniversary Edition was offered and could be ordered on all trim levels and packages. The 35th Anniversary SS Camaro could only be ordered as a convertible or with T-Tops. Around 3000 examples of the 35th Anniversary Edition were created. Total production for the year was just over 42,000.
On August 27th, 2002 production ceased. The Camaro had accomplished its goal, to provide competition for the Ford Mustang and other compact, low-priced, sports cars. Outfitted with large, Corvette engines, matted to effective gearboxes and given great suspension and brakes, the Camaro was truly a performance machine that was capable and fun to drive. It was fairly practical with room for more than two passengers. It was economical with sticker-prices in the range that many could afford. The production of the Camaro has ceased, but its future has not yet been written. Expect to see this legendary vehicle on the roadways in the near future. By Daniel Vaughan | May 2011