Corvette Chiefs, Pt. 5 or 5: Tadge Juechter

Corvette chief engineer Tadge Juechter delivered the C7 Corvette, the C7 Z06, the C7 Grand Sport, the C7 ZR1, and soon the 2020 mid-engine C8 Corvette.

Dateline 1.29.21, Images: Graphics by the Author, Image from GM Archives – All five Corvette chief engineers contributed mightily and in their own unique ways. But only Tadge Juechter has the distinction of having done hard engineering on five generations of Corvettes. When Juechter went to work in 1993 as chief engineer Dave Hill’s right-hand-man, there were two objectives; keep the then-current C4 fresh and interesting; and design and develop the most revolutionary Corvette to that date, the C5. After Hill’s retirement, Tom Wallace was Vehicle Line Engineer (VLE) and chief engineer for the Corvette. Wallace accessed that because of Juechter’s 15 years of experience, he was the right man for the chief engineer position. Wallace stayed on as VLE and eventually took an early retirement offer.

While Juechter didn’t have the racing background that Hill and Wallace had, he was raised in a Porsche household and liked to tinker around with mechanical things. As a young teenager growing up in Chappaqua, New York in the ‘70s, Juechter built a prehistoric mountain bike with a full front and rear suspension. His folks even gave him their wrecked Cadillac to take apart.

During Juechter’s college years at Stanford, he worked two summers on a GM assembly line, an experience not to his liking. Juechter graduated with degrees in aerospace and mechanical engineering and had no intention of working for GM. Then in 1978 a friend asked Juechter to tag along to a GM interview and ended up interviewing as well; and was offered a job. The late ‘70s and ’80 was a challenging time for the American car industry, but at least Juechter had a solid job. In the car business, if your ambition is upper management, an MBA is a must-have degree. Juechter earned his MBA from Stanford GSB in 1986.

By the time Juechter interviewed with Hill for the position of Assistant Chief Engineer, he was aware of the aging Corvette and impressed with the in-the-works C5. The C4’s plastic interior was a major bone of contention with Juechter. Hill was impressed and Juechter got the job. The jump from the early ‘80s designed C4 to the C5 was revolutionary. The creation of the Corvette Racing Team was the beginning of the deliberate merger of Chevrolet engineering and Corvette racecar engineering that was poured into the C5 Z06. Early on, Chevrolet general manager Jim Perkins wanted an inexpensive Corvette that would appeal to racers; this became the ’99 Hardtop and the Hardtop became the C5 Z06. While the C6 was an evolved version of the C5, no one was expecting the 505-horsepower 427 Z06 with an aluminum frame and dry-sump oil system.

From 2005 to 2008 sales averaged 36,816 cars per year. In 2006 Tom Wallace was Corvette VLE and chief engineer. While Wallace was a racer, his Corvette experience was a little thin. When Wallace learned that Juechter and his team were working on a mid-engine prototype, he knew that Juechter was the brains behind the Corvette. Juechter was promoted to chief engineer, North American Corvette.

Juechter has said that he was shocked when given orders to make the C6 ZR1; the goal was to build the best possible Corvette for $100,000. A big-block was briefly considered but rejected because of its weight. All-Wheel-Drive was not possible on the C6’s platform. The Z06 was to be the track car and the ZR1 would be GM’s halo, Grand Touring supercar.

Then the economy stalled out and the in-the-works C7 was put on hold indefinitely. Wallace took GM’s early retirement offer, leaving the Corvette all to Juechter. When GM slammed into bankruptcy in June 2009, for a time it looked like it was curtains for GM. But it turned out that the government auditor that was looking into the Corvette was a car enthusiast and knew about the pending C7. Upon examining the books, it was discovered that the Corvette was one the few GM car lines that was making money. Juechter’s team was told to get busy on the C7. The Corvette and the Bowling Green assembly plant were spared.

By the time you read this, the C8 will have made its debut and will be the most revolutionary Corvette ever. Previously, the C5 had that honor because of its all-new engine and drivetrain, and its hydroformed perimeter frame and backbone center section. The C6 and C7 generations are both evolutionary versions of the C5. The C5 and C6 are Hill’s Corvettes; the C7 and C8 are Juechter’s Corvettes. As of this writing, we know the basics of the C8, but none of the hard details. So lets look a Juechter’s C7.

A big part of Juechter’s job as VLE is to make sure there’s a Corvette for everyone with a variety of price points, and a base car that offers outstanding visual and performance value. Juechter said, “It helps having worked on the C5 and C6 because you know where a lot of the land mines are.” With horsepower ever increasing, it’s critical that the car be made easier to drive. The base C7 has 455-net horsepower; way more than any big-block ever had; yet the C7 is a car that is easy to live with. The 755-horsepower 2019 ZR1 is absolutely astonishing; it can perform on par with exotic sports cars, yet be a comfortable, usable GT machine. Electronic suspension, steering, braking, rev-matching, paddle-shift 8-speed automatic and fuel management are responsible for a balance of extreme power and civility. Imagine trying to drive a Greenwood widebody racer on the street.

When the C7 was unveiled, fans were stunned to learn that the base model had an aluminum frame and that later the Z06 and ZR1 would be available as a coupe or convertible and with an 8-speed manual or automatic transmission. Another first was achieved; the 8-speed automatic was quicker than the manual version.

Corvette interiors have often been a bone of contention with critics and the C6 took big hits for its interior. To get C7’s interior spot-on, Juechter made sure designers had set-of-the-pants experiences of life inside a 1-G cockpit; to know what it feels like having skin pressing on hard objects. He also made surer there were no distracting infotainment systems; just important information for spirited driving. The C7 has received rave reviews for its interior.

Concerning the C7 ZR1, initially there were no plans to make the car, as designers didn’t think they could do more beyond the Z06. But after a few years, plus aero input from the Corvette racing team, a new plan emerged to make the ZR1 the most powerful, stable, advanced front-engine Corvette ever offered. Many speculated that Chevrolet might build the front engine and mid-engine Corvettes side-by-side, but that will not be the case. C7 production will end in summer 2019 and the last C7 will be a black Z06 that will be auctioned off, with proceeds going to the Steven Siller Tunnel to Towers Foundation.

While Juechter was an integral part of the C5 and C6, those were Hill’s Corvettes. Even though Juechter guided the C7, the C5, C6, and C7 all have Hill’s Corvette DNA. The C8, on the other hand, is Juechter’s Corvette. People expect more of everything today, and everything is riding on the mid-engine C8. – Scott

This concludes my Corvette Chiefs Series. Below are links to parts 1-to-4. Enjoy

Corvette Chiefs, Pt. 1 – Zora Arkus-Duntov

Corvette Chiefs, Pt.2 – Dave McLellan

Corvette Chiefs, Pt. 3 – Dave Hill

Corvette Chiefs, Pt. 4 – Tom Wallace

The above articles originally were published in Vette magazine as part of my Illustrated Corvette Series monthly column.


 

Corvette Chiefs, Pt. 1 of 5 – Zora Arkus-Duntov, Corvette’s Nostradamus

Duntov carried the heart and soul of the Corvette into racing and created an American legend.

(Dateline: 7-3-20 – This story was originally published in the now-defunct Vette magazine, June 2019 issue) Arguably, there had never been a chief engineer of an American car the likes of Zora Arkus-Duntov. When Duntov was hired to work at Chevrolet on May 1, 1953, the 43-year old European-trained engineer brought a background that made him uniquely qualified to become Corvette’s first chief engineer.

As a young man, Duntov was into boxing, motorcycles, fast cars, and pretty girls. After his formal engineering training in Berlin, Germany, Duntov started racing cars and applying his engineering skills to racecar construction. In 1935 Duntov built his first racecar with help from his racing partner Asia Orley; they called the car, “Arkus”. Their goal was to debut the car at the Grand Prix de Picardie in June 1935. But after a series of mishaps, the car caught fire and never raced. From this point forward, all Duntov wanted to do was build racecars.

Image: GM Archives

In the 1930s Auto Union and Mercedes built the best racecars in Europe. Duntov wrote a technical paper about a new racing concept for the German Society of Engineers titled “Analysis of Four-Wheel Drive for Racing Cars”. at the 1937 Automobile Salon in Paris, Duntov met Dr. Ferdinand Porsche, the designer of the Mercedes-Benz SS and SSK racers, and French performance-car builder and designer, Ettore Bugatti. Mercedes-Benz cars were complex engineering marvels, but Duntov appreciated Bugatti’s elegant simplicity, raw speed, and the success of his cars with privateers. “Simplicity and privateers” are two hints of things Duntov would later do with Corvettes.

Image: CorvetteForum.com

After marrying Elfi Wolff in 1939, war broke out in Europe, and Duntov and his brother Yura had a brief stint in the French air force. France fell quickly and Duntov and his family made their way to New York. The brothers setup the Ardun Mechanical Corporation and worked through the war years as parts suppliers for the U.S. military. After the war Duntov and Yura turned their attention back to racecars and started producing their Ardun Hemi Head Conversion kits for flathead Fords.

Post-war years were difficult and by the early ‘50s Duntov was looking for an engineering job with a major Detroit car company. His goal was to find a company that would let him build racecars. When Duntov saw the first Corvette at the 1953 Motorama, he immediately pursued GM, specifically to work on the new Corvette. Chevrolet general manager Ed Cole hired Duntov and assigned him to work under GM suspension master, Maurice Olley; the clash was immediate. Olley was reserved and a numbers-cruncher; Duntov was outgoing and designed by intuition. Six weeks after being hired, Duntov requested time-off to race a Cadillac-powered Allard JR at The 24 Hours of Le Mans. Olley refused, but Cole got him off the hook to race at Le Mans, but without pay. Duntov was so irritated that he almost didn’t come back from France. After his return, Duntov reassigned and started testing special parts to improve the Corvette’s suspension and general performance.

Image: GM Archives

When the 265 small-block became available in 1955, Duntov took a modified ’54 Corvette with the new engine and some aero mods to the GM Phoenix Arizona test track where he was clocked at 162-mph. The mule Corvette was later rebodied as a ’56 Corvette and was part of a team of three Corvettes that were taken to the 1956 Speed Weeks event at Daytona Beach where Corvettes set speed records. Then in March at the 1956 12 Hours of Sebring race, Corvette scored its first major class win. Duntov and three-time Indy 500 winner and engineer Mauri Rose were then tasked by Ed Cole to design, develop, and make available, special Chevrolet-engineered racing parts. When the Rochester Fuel Injection option was released in 1957, RPO 684 Heavy-Duty Racing Suspension was there for privateers that wanted to race their Corvette.

Illustration & Graphics – K. Scott Teeters

The Bugatti pattern was laid down; make simple, fast cars, and let the privateers do the racing. Duntov also built a few purpose-built Corvette racecars. The 1957 Corvette SS was a good first step but the timing was bad because of the 1957 AMA Racing Ban. The Grand Sport was similar to the RPO Racer Kit program, only a complete, basic racing Corvette was to be sold to privateers. Again, the AMA Racing Ban killed the project. If Duntov hadn’t pushed racing, the Corvette would have morphed into a Thunderbird-like four-seater and been killed by the early ‘60s.

Duntov laid out three design concepts that took decades to implement. The first was his proposal for the 1957 Q-Corvette. This design called for the following: an all-aluminum, fuel-injected small-block engine, four-wheel independent suspension, four-wheel disc brakes, and a transaxle. This design concept arrived in 1997 as the C5.

The second design concept was the mid-engine layout. Duntov’s first mid-engine concept was the 1960 CERV-I. The design parameters were those of an Indy 500 racecar, but with a larger engine. Duntov’s second mid-engine car was the 1964 CERV-II. The third concept in the CERV-II was its unique four-wheel-drive system. Using transaxle parts from the Pontiac Tempest, the system “worked” but would not have lasted as a racecar.

Through the ‘60s several other mid-engine “Corvette” cars were built, but not by Duntov. Engineer Frank Winchell’s 1968 Astro-II Corvette was a beautiful attempt, but like all mid-engine Corvette proposals, it went nowhere. In 1970 Duntov showed his XP-882 with a transverse-mounted 454 engine. After the car was shown at the 1970 New York Auto Show, it went into hiding for some reason. Later, the chassis was used to build the Four-Rotor mid-engine Corvette that was later retrofitted with a small-block engine and rebranded “Astrovette” in 1976, after Duntov retired.

Image: GM Archives

Just after the debut of the C7, the Corvette community started buzzing about the mid-engine C8. For a time the C8 was an unconfirmed rumor until Chevrolet announced that, yes, a mid-engine Corvette was in the works. In 2018 camouflaged mule cars started being seen on public roads. In July 2018 a camouflaged C8.R was seen being tested. Towards the end of 2018 speculation was that the C8 would debut at the 2019 Detroit Auto Show. Then in December 2018, Chevrolet announced that the C8 would be delayed “at least six months” due to “serious electrical problems.”

An insider friend has been telling me for over a year that they were having serious problems getting the car right, but he wasn’t specific. Then another hint was dropped; the problem is with the car’s 48-volt electrical system. Why would the C8 have a 48-volt system? Answer; because it will have auxiliary electrical front-wheel drive. Suspension and traction is everything, so AWD is inevitable.

Illustration & Graphics – K. Scott Teeters

While Duntov didn’t “predict” the Corvette’s future, he certainly set the course. His insistence that Corvette be tied to racing, kept the car from becoming Chevy’s Thunderbird. The features of the 1957 Q-Corvette are the very design foundation of the C5, C6, and C7 Corvette. The CERV I, CERV II, and the XP-882 (minus the transverse engine) will live in the mid-engine C8. And it is likely that the CERV II’s all-wheel-drive concept will live in the C8, only as an electrical, and not a mechanical system. Without one man’s obsession with building racecars, there’d be no Corvette legend. – Scott

Be sure to check out the Duntov installment of my “Founding Fathers, Pt. 4 Zora Arkus-Duntov”, HERE.

Also, catch all 5 parts of my Corvette Chiefs Series

Corvette Chiefs, Pt. 1 – Zora Arkus-Duntov

Corvette Chiefs, Pt.2 – Dave McLellan

Corvette Chiefs, Pt. 3 – Dave Hill

Corvette Chiefs, Pt. 4 – Tom Wallace

Corvette Chiefs, Pt. 5 – Tadge Juechter


Corvette Daytona Prototype (DP) OBSOLETE? WHAT? – Video

Shades of the 1963 Grand Sport, the Corvette Daytona Prototype is now racing in the Historic Sportscar Racing series!

 

Dateline: 8.24.18 – Illustrations by K. Scott Teeters –  Time flies when you are having fun racing and winning. But five years can be an eternity in prototype sports car racing. I was shocked to see a report on Jalopnik.com that the five year old Corvette Daytona Prototype is now relegated to vintage historic racing events.

The story points out that just two years ago in 2016, the Whelen Engineering Action Express Chevrolet Corvette Coyote Daytona Prototype took the Driver’s Championship with Eric Curran and Dane Cameron in the driver’s seat.

The above 3-minute 20-second in-car video gives you a sense of what an awesome machine the Daytona Prototype Corvette is. GM Racing’s only involvement was with the basic body design. Pratt & Miller, along with Riley Technologies, Dallara, and Coyote designed and built the Daytona Prototype’s chassis. Power comes from a racing version of the C6 Z06’s LS7 engine. Continue reading


Corvette Daytona Prototype (DP) OBSOLETE? WHAT? – Video”