How Modern Tech Brings the Thunder in Historic Trans-Am V-8s
One of our favorite classes at the Rolex Monterey Motorsports Reunion pits ’60s and ’70s Camaros, Mustangs, Challengers, Javelins, Falcons, and, appropriately, Trans Ams, against one another just like when they originally hurtled the Trans Am series into popularity. The 5.0-liter pushrod V-8s thunder past 7,000rpm and the cars each exploit their particular powertrain or chassis advantages at different parts of Laguna Seca. This race is easily one of the highlights of Car Week.
When the race finished, we finally peeled ourselves off the trackside chainlink fence and entered the pits. We wanted to learn how closely these modern powertrains compare to their vintage counterparts and how they all stack up in relationship to one another.
We first spoke to John Hildebrand, who runs the 1964 Pontiac LeMans known as the Gray Ghost. “Probably the major difference between then and now is that we use roller cams,” said Hildebrand. “Other than that, the car is supposed to be as it was presented in the year that it raced.” Like their high-performance factory counterparts, the Trans Am engines of the ’60s used solid, flat-tappet lifters to actuate the pushrods. Today, as Hildebrand mentioned, they use solid roller lifters. The more aggressive ramp rate of the roller cam lobe allows the valve to flow more air with the same duration compared to a solid flat tappet cam. It also reduces friction at the lifter. Valves and valve springs are another area where modern parts are a boon. Most racers in the class today use lightweight titanium valves, which are easier for the spring to control, allowing for higher engine speeds without resorting to spring pressures that would tax the valvetrain, adding friction and the increased heat and wear that comes with it.
As the SCCA rules dictated in the ’60s, these cars must run no more than 5.0 liters of displacement. Race officials can pull a spark plug and check the displacement if something seems fishy. Cylinder heads must be factory iron, and everything must look period-correct. Hildebrand’s LeMans was raced in 1971, so it can use Ram Air IV heads. The heads on Hildebrand’s car are not only the same casting number, they’re the actual heads that were raced in the ’71 season. His 303-cubic inch Pontiac V-8 is a de-stroked 400, meaning he’s got the advantage of using a bigger bore than some competitors. He is forced to use smaller front tires than the car did in 1971, though. It’s also down a bit on power compared to the top performers in the class, making just a bit less than 500 horsepower. “It’s got an Edelbrock P4B on it, which is probably the crappiest aluminum dual-plane you could possibly use,” he joked. Aftermarket parts have come a long way since then.
Peek under the hoods of the cars lined up in the Trans Am pits and you’ll see a variety of OEM hi-rise four-barrel intakes. Some Chevy drivers use the GM-supplied dual-four-barrel cross-ram, and others use vintage aftermarket pieces that look almost exactly like the factory pieces. Some even modify more modern intakes to look the part. There seems to be a bit of leeway though, as the choke point of all of the various brands of small-block seems to be the cylinder heads, and that’s where most of the effort is spent.
“The Boss 302s, I think they make way more power than they did back then,” said Hildebrand. The Boss 302s are known for having monster intake ports. It’s common for engine builders to fill the bottom of the cylinder head intake port with epoxy to increase the short side radius and make the turn into the combustion chamber more gradual, reducing port volume but increasing the velocity of the incoming air.
Chad Raynal, who campaigns the #64 1969 Camaro and works with plenty of owners and racers with pushrod small-blocks in other classes, backed up Hildebrand’s assessment. We asked him what kind of horsepower these V-8s are producing. “The Boss 302s are probably the best,” Raynal said, “they’re making 500, maybe as much as 515. Some of the Camaros are just at 500. The low end would be an early 289 Mustang that would probably be in the 430 to 450 range, but they’re very light.”
We asked Raynal if any Ford tunnel-port cars were running. There are a few of them that compete, but none were in attendance that weekend. The 1968 Ford tunnel-port head featured an even larger intake port than the later Boss 302s. Rather than squeezing the intake port between the pushrods, it used a huge intake port with the pushrod running right through the middle. The tunnel-ports have a bit of a reputation for being lazy at low engine speed, but Raynal told us there are a few engine builders who can make them work well on the track and the street, and he put us in contact with one of the best: Tony Oddo Jr.
Oddo runs T.O.E. Performance Products in Suisun City, California, and has been building engines for decades. His shop had 40 or so V-8s running at Laguna Seca that weekend, and several racers told us he was the authority on building performance pushrod engines. He sat down with us and let us pick his brain. We asked him about the camshaft duration these engines typically run. “Boss 302s like more duration on the exhaust than the Chevrolets do. A Chevy will be like 260/264, and the Ford Boss 302s will be around 260/274,” said Oddo. He’s referring to degrees of cam lift, measured at the point where the valve is open .050 inches. “The Boss 302 is such a big intake port that it’s gonna flow more than the small-block Chevy will.” Peak power comes at about 7300-7400rpm. Because they have to look the part of a vintage engine, valvetrain part selection is a bit limited. “Some of the engines are running shaft rockers if they can fit them under the stock valve covers,” said Oddo. Otherwise, lots of the Chevy engines use 1.6:1 Crower stud-mount roller rockers.
We asked Oddo how the power levels compare between the different brands of engines. “The AMCs are really close to the Chevys and the Fords,” he said. “The only Pontiac I’ve done was an original 303 Pontiac for the Trans Am series. They only made five or seven of the things and it was really down compared to everything else.” What about the Mopars? “We have to use a stock casting,” Oddo said, referring to the cylinder head. His process includes welding the exhaust ports to get rid of the dog-leg shape and converting them to a W2-style. He uses offset rocker arms so that he can widen the pinch point of the intake port as it squeezes between the pushrods. “With a lot of work, I can get similar power,” said Oddo.
Next, we asked Oddo about crankcase ventilation, as we saw lots of large-diameter tubing and hoses for the breather systems, but Oddo said it was not a concern. “Typically just a single -10 is enough. Some guys run two -12s just because that’s what they ran back in the day,” he said. “The biggest thing on one of these road race cars is to have a good oil pan,” explained Oddo. “We use a lot of Aviaid stuff.” The pans have oil control trap doors that keep the sump submerged and they also use plenty of oil which helps keep the temperature down. Most Trans Am engines run about eight quarts and some run as much as 10. Oddo sets up his Chevy small blocks to run 60psi of oil pressure when the engines are up to temp and running full-tilt. We also noted that lots of racers used a remote-mount oil filter. They not only make oil changes easier, but they also free up room in a critical area that makes it easier for the header and steering linkage to coexist.
For the Chevys, desirable and class-legal heads are not that hard to find, but it takes plenty of skill and effort to get the most power out of them, with a deft hand at the grinder making the most out of the vintage parts. Raynal told us that Valley Head Service, the same shop that worked on heads for some of the original GT350s, worked on some of the cars in the Trans Am field. However, as much as these drivers want every advantage they can get on the track, running an engine at the ragged edge isn’t worth the hassle. As one example, Oddo told us the camshafts aren’t using the most aggressive ramp rates. “These guys want to run and have no trouble, so we tend to overbuild them,” Oddo said. “If they miss a shift and over-rev to 8,400, usually it’s fine.” The improved parts, precision machining, and modern oil all add up to engines that last about 40 hours of racing before rebuilds. That’s something that crew chiefs could have only dreamt of when these cars were trading paint and gunning for the championship in ’70 and ’71.
These engines sound like vintage race engines, without a doubt, and it takes some scrutiny to find any flaws in their vintage portrayal once you pop the hood. They’re making similar power to racers of the era while also lasting much longer. The tricks used on these engines are the same ones hot-rodders have used since the ’60s and even before, but modern metallurgy and cutting-edge race parts have trickled down so that enthusiasts can get their hands on them. We, like Oddo, are grateful. “They didn’t have the type of component selection. Everything’s better,” said Oddo. Opening up a speed parts catalog or scrolling through the nearly endless parts available online makes us glad there’s so much at our fingertips and it gives us all kinds of ideas for building a vintage-looking engine of our own.
Roller cams are needed due to much of the oil today is not like it used to be. Racing oil is still better but not like it was.
Most of what they do here is for durability. These do not tear down these engines or replace them every race.
Also I suspect there may be a trick or two used for an advantage. While it is more exibition it is still racing.
“Roller cams are needed due to much of the oil today is not like it used to be. Racing oil is still better but not like it was.”
Are you saying that better oil was available back then?
Oil used to have more zinc in it before emissions laws and cams changed to roller and zinc was not needed. Flat tappets need zinc, especially on break in. Roller cams don’t and since everything went to roller, the zinc went away. You can find high zinc oil or additives but regular oil does not have it.
I think the reduced ZDDP rules from the EPA only apply to oils up to 10w-30 in weight. Heavier oils, Racing Oils, and Oils from small boutique manufactureres are exempt and these oils are definitely bettery “Synthetic” than in the past.
From what I know the competitors in these vintage racing series are a bit.. forgiving … of each other. And rightfully so given the cost. So being slightly outside outside the bounds of period correct , largely for durability, is a mulligan. I think roller cam setups had once been called ‘ helper kits ‘ during this period. While not legal they’d be swapped in for qualifying and then swapped out for the race and post race inspection. Sam Posey talked about having an acid dipped AAR Trans- Am Cuda. Very illegal. They invited an inspector to hang out and a have a beer in the garage after the race. The inspector leaned against a fender which gave way like tin foil and then said…”Uh…boys.. we’ve got to talk .” Maybe some degree of playing fast and loose with the rules is reasonable and historically accurate.
In Mark Donohue’s book, he talked about the acid dipped Camaros they were running. They left a body in a little too long, and the roof was so thin it rippled, so to cover up the obvious, they put a vinyl top on it. Then everyone thought that they had discovered some speed with the vinyl, and of course protested, getting the vinyl removed.
Super cool stuff!
I agree with swamibob – very cool indeed. Thanks for the article and photos, Brandan!
Thank you! It was great getting to talk with some of the people who put in so much effort in these vintage racers.
How about for non-race cars>>how do you find roller cams/lifters for oddball makes or 4/6 cyls.? Not everyone has a common engine from the ‘big three’. Just finding stock replacements that are any good is getting hard. Flat tappet cams haven’t been used in new cars for almost 40 years now so a lot of the stuff made today is poor quality. Sure you can have custom stuff made up for anything, but that is not affordable. Oil additives can be iffy as you don’t know how much zinc is in the oil to start with. Most new car oils don’t have any. Adding too much is as bad or worse than none at all. I have an oddball: Pontiac OHC 6. Those cams and followers weren’t that good for longevity when they were new. Good idea that needed better execution.
I love the photos. Very interesting info. I was a bit shocked on the running a little less tire up front mentioned… “He is forced to use smaller front tires than the car did in 1971”
Why would that be?
Must be related to traction, maybe keep the front from having too much traction casing the car to spin or slide? Less front traction car will push through the corner?
Perhaps the difference in size between radial tires and the old bias-ply? Some years back, I tried to find a radial the same basic dimensions of the old F-78s I used to buy. None to be found.
The tire size deal is because of what’s available. That Posey story is about the Autodynamics Challenger, which allegedly had to have its roof replaced (donor was at a nearby Dodge dealership, as the story goes) to pass tech. Similar story on one or maybe both of Penske’s ’69 Camaros. There was a lot of creativity in TA, and numerous great stories & characters. I had the honor of working on the restorations of a couple of TA cars (#1 RWR Javelin and #93 Boss 302), and crewed on the #63 Mustang (Shelby customer car) shown in the lead photo several years ago – great times.
As I recall, the Pontiacs needed bigger front tires because their engines were heavier than the Ford or Chevy engines, back then. Not sure why they aren’t allowed now.
Plus a Rev Kit 😉
Steve- that makes sense. The way I’ve heard the Penske Camaro acid dipped car story told was that the roof flapped so much at speed that they put a vinyl top on it to disguise the effect and then told the inspectors ” just because we think it looks good” as an alibi. Though I’ve never seen that car .According to my information as well, Ford tried developing the tunnel port (427 like heads) for the Windsor as did Pontiac. Neither could make them work. Ford went to the Boss. So were tunnel port heads ever used on Ford/Mercury Trans Ams? Perhaps 67-68?
One of the best races I ever saw involved one of the featured cars here, the LeMans. Well, I think it was the same car if it’s the one built by Herb Adams. This was an SCCA Regional race at Blackhawk Farms in Illinois about 1970 or so. The Pontiac fought it out with–a Genie Chevrolet sports racer! Great battle.
Of course the epitome was seeing Donohue and Parnelli duke it out at Road America in the real TransAm.
Herb and crew found the larger front tires were faster. Not sure why they don’t allow them now? Of corse they weren’t radials then. The team didn’t try radials until 1972 on the Black Bird (Firebird Trans Am) Which had a lot of upgrades from the Tempest. Dry sump oiling and 180 degree headers. Wonder what happened to the firebird car?
What happened to Bob Tullius # 44 Dart as well.
just curious what “Smokey” would say…..the master
the engines of which we speak …ENDURO ENGINES
see Power Secrets>>>>not perfect …. but a darn good guide
from personal experience
I saw the Pontiac race in the Trans Am at Lime Rock in the rain, it stole the show!