By Marshall Pruett, Road & Track
The machine you see here is Nico Rosberg's 2012 Mercedes AMG F1 W03, a carbon-fiber monster with a naturally aspirated 18,000-rpm V-8 producing over 700 bhp. Amazingly, that engine isn't the W03's most impressive feature. Like all modern F1 cars, the Mercedes is both defined and dominated by its aerodynamic aids.
Topside, Rosberg's car uses multi-element wings to produce downforce, but peer underneath and you'll find a cocktail of mind-bending vortex generators and what F1 designer Nick Wirth calls a "horrific assortment of [interconnected] parts and pieces."
Wirth, 46, began his career as an aerodynamicist at March and later served as technical director for Benetton and Virgin Racing. Because the bottom of an F1 car is almost never seen, we asked Wirth to parse it out.
"A Formula 1 car produces much of its downforce from [its underside]," he says. "Think of each component as a link in a long chain. Change one without altering the rest and everything is then out of alignment-the car's aerodynamics simply won't work as intended."
- Mercedes' "Double DRS" system uses channels in the body to route air from the rear wing to the car's nose. When the car's DRS system is activated, the flap's motion exposes holes in the rear wing's endplates. Air enters these holes and is then routed forward to the front wing, where it exits on the bottom side to stall the wing, decrease front downforce and boost top speed.
- The forward barge board acts solely as a vortex generator. "The rotational direction of that vortex will be counterclockwise," Wirth says, "and because the vortex is traveling downward, it sends down-wash approaching the underbody, which is very favorable. It essentially generates more downforce."
- The ornate, sculpted sidepod turning vanes play a vital role in routing the dirty, turbulent wake of air coming off the front tires. "They delay how long it takes before that front-wheel wake starts disappearing under the floor and taking downforce away," Wirth says.
- The reference plane, the bottom-most section of the chassis, must be 300–500 mm wide. It creates airflow channels capped and fed by the interior barge boards.
- Known as the reference plank, this chamfered skidplate is made from a resin-infused, wood-based composite called Jabroc. It's replaced between track sessions. The holes in the plank's surface allow technical inspectors to measure its thickness, ensuring it stays within the mandated 10-mm (plus or minus one millimeter) tolerance. "The leading edge of the floor will be generating vortices that will then spin down underneath the floor, along the edge of the reference plane," says Wirth. "All of that vortical action reduces the total pressure under the floor and gives you more downforce."
- Barge boards produce vortices and increase downforce. "They're cambered like a wing," Wirth says. "Any reduction in pressure there basically torques the floor and reduces pressure all underneath the car."
- The car's keel gently moves the column of incoming air underneath the monocoque sideways and out of the way. "It's shaped very carefully and [designed with] the barge boards to generate higher airspeed and thus low pressure."
- This small wing sits in what's known as the squish vortex zone. "You have a seal between the rotating tire and the ground," Wirth says, "and the air that hits the tire can't get underneath it, so it forms two very strange jets-they come out at an almost-45-degree angle on each side. This wing is inverted...it has nothing to do with generating lift."
- Aperture for the front laser ride-height sensor. It can be set to sample ride height as often as 1000 times per second.
- Carbon-fiber front A-arms, with key sections rotated to match the airflow off the front wings and minimize turbulence and drag. Every time the front wing is modified during the season, the car gets a new set of A-arms with a revised, matching angle of twist.
- Carbon-fiber backing-plate extensions clean up air coming off the inside of the tire, aiding brake cooling and airflow.
- Aluminum tape, 0.05-mm thick. Durable, thin, seals holes and keeps airflow disturbance to a minimum.
This story originally appeared on Road & Track on October 16, 2012, and was republished with permission.
Incidentally, two former Jalopnik staffers now work there, and they, along with an all-star cast of dedicated oddballs, are currently working on a full-scale redesign of R&T's magazine and website. If you like this, you'll love what they have in store. Also, you should send this guy some candy by mail. He will love you forever.
Photo Credit: Paul-Henri Cahier
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