It also explain Mclaren's straight-line speed disparity. The exits are causing the issue because it's making contact with the sidewall of the tyres and the one channel design isn't sufficient to allow for make greater airflow on the rear of the W16. The smaller design of the brake ducts for the entry and exits are Mercedes is causing more issues than it should.SiLo wrote: ↑03 Jun 2025, 15:57It might also explain why Red Bull claim the Mclaren brake ducts were noticeably cooler than other teams. They are extracting heat more effectively, but also passing through cooler free stream air that is not directly heated inside the caliper area of brake drum.AR3-GP wrote: ↑02 Jun 2025, 15:59It could be. I also wonder if the more outboard channel(s) (closer to the tire sidewall), are more likely to be a free air channels, creating an "air curtain" to limit the amount of brake duct heat which is flowing against the sidewall of the tire. If the brake duct exhaust were being exposed directly to the sidewall, I think that would contribute to more heating of the tires. If this is true, then one can see how the Mercedes design seems less optimal. They mix the brake disc exhaust and a free stream in the brake disc collector, but that air is heated and expelled right next to the sidewall of the tire. It seems to lack the air curtain.
https://i.postimg.cc/3r98yD5g/image.png
I think Mercedes design is made where the during colder conditions the car can rapidly heat the tyres vs the competition but the problem is in hotter conditions.
This could be a very huge advantage if Mercedes introduce way bigger brake duct entry and exits while also having a 3 channel cooling design similar to Mclarens and plus have the 3 pipe design.
One channel can be small and angled against the tyre, while the other 2 channel have the largest openings and are angled + extracted towards the beam wing, but requires the need of excessively large brake ducts.
](./images/smilies/eusa_wall.gif "Brick wall"){kind=small}
