‘Flying Car Mode’ and other secrets of the 2020 Corvette Stingray
Mark Phelan, Detroit Free Press Published 6:00 a.m. ET Feb. 21, 2020 | Updated 11:10 a.m. ET Feb. 21, 2020
LAS VEGAS — Evading helicopter surveillance and channeling the spirit of the “godfather of the Corvette” were business as usual for GM engineers developing the 2020 Chevrolet Corvette Stingray, code-named C8 because it’s the eighth-generation of the sports car.
The first mid-engined production car in Corvette history, the new Stingray had near-mythic status before it ever turned a wheel, and has won nearly every major new car award since it debuted in 2019. The first production models will arrive at dealers in late February or early March.
Chevrolet engineers and designers wanted to make a mid-engine ‘Vette since at least 1960, when legendary engineer Zora Arkus-Duntov led creation of Chevrolet Engineering Research Vehicle No. 1, or CERV I. Zora, a brilliant engineer and racing driver who transformed the 1950s Corvette from a car that was lovely but slow into America’s great sports car, wanted to move the engine from the nose to behind the passenger compartment. Called mid-engined, that arrangement lets cars use more power than the traditional front-engine layout because the engine’s weight over the rear wheels keeps the tires from spinning when the driver floors it.
“We could add horsepower, but we weren’t making the car faster,” chief engineer Ed Piatek said of front-engine Corvettes.
Through the decades, GM engineers and designers created one proposal after another for mid-engine ‘Vettes. None made it to production.
After a saga like that, it’s no surprise the 2020 Corvette Stingray generated stories of its own.
‘Nothing to see here. I’m just an Australian pickup.’
Plans to build a mid-engine Corvette were closely held even within GM. Around 2014, the team built a card-access only room inside an already-secure corner of GM’s tech center for the first prototype. Code name Blackjack, the two-seater hid the C8’s chassis and suspension under what appeared to be the body of the Holden Ute, a sporty car-based pickup made by GM’s Australian brand.
“It was a convenient shape to hide a mid-engine layout,” C8 lead development engineer Mike Petrucci said.
The only actual Holden parts on Blackjack are the brand’s chrome badge, headlights, outside mirrors and taillights, but the ruse worked. The one-of-a-kind “mule,” as development vehicles are sometimes called, served for two years of development drives — frequently at night, so not even other GM engineers would see it — at GM’s proving grounds in Milford and Yuma, Arizona.
Building Blackjack — by hand, of course — took eight months. The interior came from the C7 Corvette that was in production. Its body panels were handmade fiberglass, carefully shaped to look like a Ute while covering the C8’s bones. Those bones, incidentally, were milled from 7,000 pounds of aluminum ingots, work done secretly at other GM facilities.
In addition to Blackjack, the C8 team considered mules that looked like station wagons and vans, two other body styles that would allow them to hide the fact that the engine compartment was behind, not in front of, the passengers.
‘Incoming. Hide the ‘Vette!’
Despite GM’s secrecy, rumors leaked out that a mid-engine ‘Vette was again under consideration. It immediately became the top target for spy photographers, who specialize in getting pictures of vehicles automakers are developing. Confirmation that a mid-engine ‘Vette was coming, and good photos of the fabled project, could make somebody’s career, not to mention a stack of dough higher than the car.
In addition to staking out GM’s proving grounds and areas automakers develop vehicles — Death Valley in the summer, Finland in winter — some photographers hired helicopters to fly over the Milford proving grounds. Buzzing Yuma was verboten, its air space restricted because of nearby U.S. military installations.
By this time, Blackjack had been replaced by mules that, while still disguised, were clearly for a two-seat sports car. A single clear photo would let the cat out of the bag.
The answer was a better bag: A fabric car cover designed to be folded and stowed between the development car’s seats. You can hear helicopters before you see them in Milford’s wooded, rolling landscape. Development drivers were told to keep the windows open a crack, pull over, leap out and unfurl the car cover over the mule at the first sound of rotors. They drilled to perfect covering it quickly and refolding the cover precisely for fast deployment next time.
They succeeded, standing next to the covered car and waving at choppers overhead on at least a dozen occasions.
A wing like no other
A close look at the tall black wing rising above Blackjack’s tailgate reveals that it’s upside down, the exact opposite of the profile you see on race cars. While most automotive wings generate aerodynamic downforce — air pressure that pushes the vehicle down so it doesn’t leave the ground at high speed — Blackjack’s wing actually creates aerodynamic lift, like a plane’s wing.
That’s because wind tunnel tests showed Blackjack’s cobbled together body had aerodynamic lift at the nose. That’d be unacceptable in a production car, but since Blackjack’s body would never be built, the only thing that mattered was that its aerodynamic profile be equal front and rear. Creating downforce would be the production body’s job.
In addition, the two stanchions supporting the wing double as air intakes to cool the engine mounted under what appeared to be a tonneau cover on the pickup bed.
The C8’s performance targets — speed, aerodynamics, braking, fuel efficiency, etc. —were set during hundreds of thousands of computer tests before Blackjack was built.
What would Zora do?
GM had never built a car like the C8, so the engineering team had to invent many processes on the fly.
“At every turn, we asked ourselves, ‘What would Zora do?’ ” Piatek said.
Arkus-Duntov, widely called the godfather of the Corvette because he led the car’s development for an unprecedented 20 years, pushed the performance envelope at GM from the day he joined the company in 1953, first and foremost by making Corvettes faster and better.
Never afraid to ruffle feathers, while working at GM, Duntov took time off to drive for Porsche at the famous 24 Hours of Le Mans race, winning once. Legend has it he got company approval by promising to bring back competitive intelligence about Porsche, but he also helped the German automaker improve its performance with suspension modifications.
When he retired in 1975, Duntov’s parting words to Dave McLellan, his successor as chief engineer, were reportedly that the mid-engine Corvette was now in his hands.
To ensure every member of the C8 team understood the legacy they had the opportunity to complete, they wore bright yellow — the color of Corvette race cars that have won many Le Mans races — and “What Would Zora Do?” wristbands, making that the standard for decision making.
Flying car mode
The optional adaptive Magnetic Ride Control shock absorbers talk to the Corvette’s traction control system, a feature that comes in handy at high speeds on the track, vehicle performance manager Alex MacDonald said.
Why? Because when a car goes airborne at very high speeds, normal traction control senses the rear wheels spinning and responds as if they were on ice or another slippery surface: It slows them.
That’s a handy feature in normal driving, but slowing the powered wheels costs you time on the race track. That’s why, in performance traction mode, the front shocks communicate that they’ve got no weight on them — meaning they’re in the air. The rear wheels will inevitably follow, but the traction control is told to ignore it and keep sending power when they start spinning, because it knows all four wheels will be on the ground again momentarily. The result, a quicker lap time.
Memory for obstacles
Front bumpers and air splitters that hug the ground look good and improve performance, but they’re easy to damage on steep driveways and tall parking blocks. The Corvette’s suspension can raise the nose an inch to avoid such obstacles.
An optional feature called GPS-based front lift can remember up to 1,000 spots where you raised the nose. When you approach one, it raises the nose an inch at up to 25 mph.
A front camera can also be used to look down from the nose to spot obstacles when parking.
2020 Corvette Stingray fun facts
74% of orders so far are for the coupe, 26% for the convertible, which doesn’t go into production til April
The most popular color is Torch Red
GT2 seats with carbon fiber trim are most popular
There are 2,600 C7 Corvettes left at dealers, expected to fall to 2,000 by March 1
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