![]() 2017 Brake Calipers Formula 1 calipers are now so intricate that they can take up to 40 hours to machine Therefore, the engineers need to continually adjust the margins of their defined temperature window.’Ĥ. ‘They also have to keep in mind that during the race weekend, brake temperatures will continue to increase due to track evolution and also at the start of the race when the car is heavy with fuel. However, if temperatures are too high, above 600☌ then you can have high wear,’ says Andrea Pellegrini, Brembo F1 Engineer. If initial temperatures are too low, under 250☌ then the drivers can glaze the disc which decreases the life. ‘It’s very important for teams to experiment with the set up of the car during FP1 and FP2 to define the optimum working range of temperatures for the brake discs and pads. However, it’s also important to keep the brakes cool, as this slows the rate of wear. The heat generated from the brakes can also be used to increase tyre temperatures via complex air ducts. The pads and discs need to be hot to give the brakes ‘bite’ which is why at the start of most races, when the brakes are cold, drivers often struggle around the first few corners, until the brakes are up to temperature. Maintaining the brakes within the optimum temperature window is one of the Race Engineers main challenges and is a balancing act. Whereas, Singapore, Monza and Canada require a lot more performance and so would use the high cooling disc, with 1,300 ventilation holes. For example, the low cooling discs only have 500 ventilation holes and so would be used at Silverstone, Spa, Sau Paulo and Suzuka, where the average braking demands are relatively low. ![]() With each circuit demanding different performance from the brakes, Brembo supply three types of discs, each with a different level of cooling to suit particular tracks. To dissipate this heat, the carbon discs have ventilation holes that are between 2.5-3.0mm in diameter and the number of holes is inversely proportional to the diameter of the disc. The wider discs also allow for improved cooling, which is essential when the friction on the discs can generate temperatures up to 1,200☌ – which is similar to the temperature of molten lava. However, due to the brake by wire system, the front axle experiences the most braking performance (approximately 60% brake bias) and so the rear discs have reduced in diameter and thickness by approximately 7%. To cope with this increased torque, the front carbon brake discs have increased in thickness from 28mm to 32mm. This combination of the wider tyres and the higher downforce has increased the torque at the wheels by 20% demanding more performance from the brakes compared to last year. The height of the rear wing has reduced by 150mm with the diffuser becoming both wider and taller by 50mm and now extends ahead of the rear wheel axle. This is why the front wing span has increased in width from 1,650mm to 1,800mm and the overall width of the car is now 2,000mm rather than 1,800mm. The target of the new regulations was to increase downforce levels by around 30%. ![]() Despite the rim size remaining at 13inches, the tyre diameter has also increased slightly. This year’s tyres are 25% wider than 2016, with the fronts increased from 245mm to 305mm and the rears from 325mm to 405mm. In this way, the energy from the rear brakes is recovered, but once the 2MJ limit has been reached, the rear brakes operate conventionally.įor further details on Formula 1 brake by wire systems see the following articles:Ģ014 F1 Explained: What is Brake by Wire? Therefore, during braking, fluid is moved through the rear master cylinder as normal, however the MGU-K then determines the amount of pressure applied to the rear caliper’s. ![]() The rear brakes however, have an additional master cylinder which is electronically controlled. This fluid is used to actuate the 6 pistons within the front caliper’s which clamps the brake pads to the carbon disc reducing the speed of the wheels through friction. The front brakes operate conventionally where the driver pushes the pedal with a force of 160Kg, applying pressure to the fluid in the Master cylinder. To achieve this, the braking system has two hydraulic circuits, with a separate master cylinder for the front brakes, and another for the rear. These rule changes allow the recovery of 2MJ of energy per lap through the rear brakes, with a total of 4MJ of energy per lap transferred from the Energy Store to the drivetrain during acceleration equating to around 160bhp for 33 seconds each lap. 2017 Brake Padsįormula 1’s famous brake by wire systems were introduced together with the revolutionary 1.6L V6 turbo powertrains back in 2014. The wider tyres and higher downforce of 2017 has increased wheel torque by approximately 20% – so how has this effected the brake by wire systems? 1.
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