mwillems wrote: ↑05 Mar 2024, 21:32
LionsHeart wrote: ↑05 Mar 2024, 21:19
I agree. Sometimes it's nice to be right. I like it when there is constructive dialogue on the forum, when guys form a collective mind. One can ask a very interesting question, the other is able to answer it. I don't know the proportional relationship, which has more influence on understeer in slow corners. But I noticed this weakness of the car a long time ago. And it still hasn't been solved. Will a front wing alone solve the problem? Anything is possible. If one part solves the problem, that's impressive. In that case, it's worth saying that the front wing has a significant impact. But without having the inside data, I have no idea. One thing I can say for sure is that the front tyres lack grip.
The lack of handling is also affected by the underbody. Depending on where the main centre of downforce is located on the underbody. It is clear that it is distributed over an area, but I am referring to the point relative to the longitudinal axis. If the front and rear suspension interacts well with the chassis and the centre of mass is at the same set point as the aerodynamic balance in slow corners, then such a chassis will not have understeer.
The McLaren chassis is generally very stable in medium-speed and fast corners, which may indicate that there's generally much more grip on the rear axle, which brings out the lack of handling. At Silverstone at Becketts corner this is clearly evident. There, the McLaren chassis has a slight lack of handling, while the Mercedes chassis lacked proper stability, requiring the rear axle to be loaded more heavily with an oversized wing.
I agree, I totally think it is about strong and consistent aero from the floor, my feeling is just that we aren't able to feed the underbody and/or manage tyre wake properly at lower speeds, which may be interacting with weaker vortices sealing the floor at those speeds.
You're spot on about the merc wing last year, always one step bigger than ours. This year, we are running the bigger rear wing, but so far it is only one race
Well McLaren chose last year's rear wing, but redesigned it to suit current trends. But in terms of overall size and aerodynamic loading, they're comparable. In that respect, you can tell why they had one of the lowest top speeds on the straights. On the other hand, in race mode without the DRS wing open, the top speed is comparable to its rivals, so even with a more loaded rear wing, the McLaren is not inferior in top speed. Another thing is that the efficiency of DRS is not yet up to the level of rivals. I hope that later and here we will see the potential for development.
There is speculation that the new front wing, which will allow more flow to be redirected under the floor, will improve DRS efficiency. Perhaps the beam wing should be of a certain geometry, so that in conjunction with the diffuser and rear wing work, to significantly reduce drag. I think there is some sort of range in pressure differential here that can be capitalised on. But to be honest, I couldn't even figure out this secret last year. The only thing I've known for years is to increase the top flap by area to increase the pressure differential.
Either the front wing should be of such geometry as to distribute the flows above the floor and below the floor in such a way as to combine in the diffuser end region to create some vortices that will reduce the efficiency of the beam wing. And these vortices should appear at the moment when the upper flap is lifted. So, at this moment the rear wing creates less pressure, then the balance of forces on the rear axis should go more to the diffuser and the beam wing and somewhere here there should come some peak pressure, which should be steadily torn off either from the beam wing or between the upper edge of the diffuser and the beam wing, thus reducing drag. Yeah, I may have written something stupid now.
I too was sure they were going to have to upgrade the front wing, simply if only because it's last year's part. That's right, this part needs improvements. But I'm sure it won't be without replacing the floor. Farnborough above wrote that the underbody is extremely important. The bottom has a large working area, so the downforce generation should be proportionately large. On the other hand, the way the front wing distributes the flows above and below the floor is just as important, otherwise you can't get the stability the team needs.
