sosic2121 wrote: ↑20 Aug 2021, 10:31
Just_a_fan wrote: ↑19 Aug 2021, 15:34
sosic2121 wrote: ↑19 Aug 2021, 14:54
Traditionally, DF(together with weight of the car) push the tires into the road to allow higher cornering grip, allowing tires to work harder.
This wing(partly) circumvent the tires, and is working directly on the body of the car.
So tires are doing less, but cornering limit is the same, or higher.
If you apply a vertical load on to the body of the car then you put that same vertical load on to the tyres (spread out over the tyres depending on where the vertical load acts in respect to the centre of mass). You don't "circumvent the tyres".
This wing is producing centripetal force which directly counters centrifugal force, so in effect centrifugal force is reduced and tires are bypassed in the process
https://youtu.be/Hvocv9zF10c
Yes, that's all great in principle when looking at a static situation. But there are other issues to consider in the whole car's performance.
For example, when the wing pivots, it will affect the base pressure distribution across the rear of the car and that will affect the undercar flow. What will that do to the car's total grip and its ability to corner? After all, if you change underfloor flow then you potentially alter the flow under the nose and thus cause an increase/decrease in understeer.
When the wing pivots, the two sides will see different angles of attack - albeit briefly - and that will affect performance - albeit briefly.
How quickly can the system react? Through a chicane, for example, the car will go from lock to lock to lock in very quick succession. Will the wing react quickly enough? If you can move the wing quickly enough, it will also have a roll-bar effect on the rear of the car - rotating the wing will cause the rear of the car to rotate in the opposite sense. How will that be dealt with in a chicane so that the rear end doesn't become unstable? Active damping could deal with it, but it's another level of complexity. Also, dealing with this will remove some of the alleged benefits of "circumventing the tyres".
If the wing is to be reactive enough, it will need to follow the steering wheel in real time. On the road, that's going to be adding some interesting sideways moments as the wheels follow the road surface - in effect, the rear will be constantly wiggling in response to steering wheel movements. And if you damp that effect then you reduce the ability to react to the steering wheel in rapid direction changes.
And above all else - what does the wing do to help the front end grip? All very well saying you can get lateral load at the rear to help cornering, but if the front is a standard car set up, the front end will lose out and you develop massive understeer.
I'd like to see this car run around a representative track with the system active and inactive and see what the lap times say. Likewise, take it on a real road (in controlled conditions) and see what it does with the system active and inactive.
If you are more fortunate than others, build a larger table not a taller fence.
