matteosc wrote: ↑09 Jul 2026, 04:39
AR3-GP wrote: ↑08 Jul 2026, 22:11
matteosc wrote: ↑08 Jul 2026, 21:48
As explained in the video linked a few posts before, the issue may be on the fluid dynamic side and not on the mechanical closing of the wing. In substance, there may be situations in which the flow does not reattach and at that point there is nothing you can do.
They might also have reattachment issues that could show up on another day, but so far there is a much simpler explanation which has been provided.
Verstappen told Sky Sports F1 that the cause of his Silverstone spin was identical to the issue that put him in the barriers in qualifying for the Austrian Grand Prix a week earlier.
“The same as Austria, the rear wing just doesn’t fully close,” he said. “I saw the analysis. It looks like it closes, but it doesn’t. It closes but it’s just a little bit open and you lose a lot of rear downforce. And that’s why the car just spins off the track.”
https://sports.yahoo.com/articles/verst ... 40457.html
I wonder if it
didn't close properly because it did not have the expected level of downforce to close the last little bit. In general I think it is interesting that some people view the RedBull solution as more stable under braking, some people think the complete opposite. Regardless of mechanical failures.
It's the other way around - the closing mechanism has to work
against the onsetting downforce while closing. And there has to be some kind of mechanical lock inherent to the mechanism
(which gets disengaged just before the wing begins opening for SLM) that prevents the downforce
(the force is never downward, it's pointed 'down&back' if it were a vector) from opening the wing when SLM is inactive, since the hinge mechanism is near the top. This
'downforce is not supposed to open the wing by accident' condition applied for the earlier DRS mechanism as well, just to put it in perspective.
In case of the SF26, the 'final moments of closing' is aided by the onsetting downforce (exactly opposite to the Redbull).