The art and science of MotoGP braking

MotoGP made its one and only visit the U.S. for the Red Bull Grand Prix of The Americas at Circuit of The Americas in Austin, Texas last weekend. While we’re all awe-struck at the sight of riders holding on to a bike eclipsing 212 mph through the speed trap, it’s what happens at the end of said speed trap that is a marvel of both engineering and human athletic performance.

Some stats from MotoGP brakes supplier Brembo set the stage.

Mattia Tombolan, MotoGP Race Engineer for Brembo, states that COTA is a “3” on a scale from 1 to 6 that classifies circuits as low-braking intensity (1) to high-braking intensity (6). What determines a circuit’s braking intensity is the average heat generated over the course of a lap. Heat, or more precisely the retention of it, is the enemy of braking performance.

“At 1000 degrees Celsius (1,832 degrees Fahrenheit), the brake pads and discs begin to oxidize,” says Tombolan, “which means that the material itself starts to break down.”

Excess heat is not only detrimental to braking performance, but it can also greatly affect tire pressure and performance. As such, teams using forged magnesium front wheels by Marchesini have a specialized reflective surface coating to further aid heat dissipation and keep front tire pressure stable.

A low intensity circuit would see average brake temperatures around 300 C (572 F) while a high braking intensity circuit such as the Red Bull Ring in Austria would see temps hovering around 800 C (1,472 F). COTA sits right in the middle of scale at around 550 C (1022 F).

“The single largest factor in how the brakes generate and then dissipate heat has less to do with the intensity of a single braking zone, but the frequency of braking events and the time in between them,” Tombolan explains.

At COTA there are three zones of high intensity braking in Turns 1, 11 and 12 where riders enter at over 210 mph before decelerating to 40 mph in the space of 967 feet in a time of 5.5 seconds. According to Brembo, at the same turn, Formula 1 cars start braking from a speed of 196 mph down to 53 mph in 2.78 seconds and cover a distance of 422 feet.

The rear wheel off the ground shows Gresini Ducati rider Alex Marquez hitting the maximum braking point at COTA. Image via Brembo

More remarkable still is that the act of braking is handled almost entirely by the front brake, which means that all the deceleration is handled by one tire contact patch smaller than a credit card. Unlike a car, which is mostly sprung mass balanced over four corners, some 90 percent of a MotoGP bike’s weight sits behind the front forks, which is a pivot point. If ever you’ve been traveling on a highway and witnessed an 18-wheeler semi-truck in a panic stop where the trailer suddenly swings out around the cab, that is essentially what a MotoGP rider is contending with at every braking point.

The numbers are impressive, but the question is how do they, both Brembo and the riders, do it?…