I said the same last year. RB have (had) higher, more rounded ceiling of the underfloor making it less sensitive to volume change vs. ground clearance and probably allowing more room for the vortices generated by the strakes to remain intact as the ground clearance is reduced. A lot of literature by Katz about this latter phenomenon.
Let's have a look at how Newey was designing diffusers 35 years ago...ing. wrote: ↑26 Mar 2023, 16:53I said the same last year. RB have (had) higher, more rounded ceiling of the underfloor making it less sensitive to volume change vs. ground clearance and probably allowing more room for the vortices generated by the strakes to remain intact as the ground clearance is reduced. A lot of literature by Katz about this latter phenomenon.
It's not really a theory, it's a well discussed fact during last year. The profile of RB18 and now AMR23 (by the looks of it) provides a small and powerful low-pressure zone in the rear and somewhat limits the potential for more downforce on its own. The profile, not the floor. One of the reasons Ferrari had more floor downforce than RB18 until TD39 kicked in and the car was raised forcibly.
The one thing that became clearer now with more pictures is that there is actually a (very) short surface of the throat, but it did look like an edge last year. Doesn't change the philosophy, just the pressure distribution a bit...Vanja #66 wrote: ↑13 Sep 2022, 10:31
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This is very far from what typical ground effect floor pressure distribution looks like and the rear end is practically the same as previous generation diffuser floors. You can be sure that other teams, with conventional ground effect floor design, have a very, very different pressure distribution, far more even as opposed to RB peaky downforce design.
Add one more to your "You should do CFD of this" yelled from the crowd list: RB18 close coupled bargeboards.Vanja #66 wrote: ↑13 Sep 2022, 10:31https://i.ibb.co/2dWCbvp/iBwWx4U.jpg
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https://i.ibb.co/44dsV89/rb-floor.jpg
It's the most important feature of the floors. I do not think it's trivial.Vanja #66 wrote: ↑26 Mar 2023, 17:40It's not really a theory, it's a well discussed fact during last year. The profile of RB18 and now AMR23 (by the looks of it) provides a small and powerful low-pressure zone in the rear and somewhat limits the potential for more downforce on its own. The profile, not the floor. One of the reasons Ferrari had more floor downforce than RB18 until TD39 kicked in and the car was raised forcibly.
The one thing that became clearer now with more pictures is that there is actually a (very) short surface of the throat, but it did look like an edge last year. Doesn't change the philosophy, just the pressure distribution a bit...Vanja #66 wrote: ↑13 Sep 2022, 10:31https://i.ibb.co/2dWCbvp/iBwWx4U.jpg
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https://i.ibb.co/44dsV89/rb-floor.jpg
This is very far from what typical ground effect floor pressure distribution looks like and the rear end is practically the same as previous generation diffuser floors. You can be sure that other teams, with conventional ground effect floor design, have a very, very different pressure distribution, far more even as opposed to RB peaky downforce design.
The teams test ride height variation in their CFD and windtunnel so it shouldn't be something that they missed.ringo wrote: ↑26 Mar 2023, 20:08It's the most important feature of the floors. I do not think it's trivial.Vanja #66 wrote: ↑26 Mar 2023, 17:40It's not really a theory, it's a well discussed fact during last year. The profile of RB18 and now AMR23 (by the looks of it) provides a small and powerful low-pressure zone in the rear and somewhat limits the potential for more downforce on its own. The profile, not the floor. One of the reasons Ferrari had more floor downforce than RB18 until TD39 kicked in and the car was raised forcibly.
The one thing that became clearer now with more pictures is that there is actually a (very) short surface of the throat, but it did look like an edge last year. Doesn't change the philosophy, just the pressure distribution a bit...Vanja #66 wrote: ↑13 Sep 2022, 10:31https://i.ibb.co/2dWCbvp/iBwWx4U.jpg
***
https://i.ibb.co/44dsV89/rb-floor.jpg
This is very far from what typical ground effect floor pressure distribution looks like and the rear end is practically the same as previous generation diffuser floors. You can be sure that other teams, with conventional ground effect floor design, have a very, very different pressure distribution, far more even as opposed to RB peaky downforce design.
And that's why mercedes missed the trick. Doing a steady state or single capture will conclude one has a certain distribution so its gonna have more downforce. But for a distribution of heights how often will this be the case?
And I disagree that it's well discussed.
Absolutely but this applies to all teams. A windtunnel model motion system moves fairly slowly but this applies to all F1 teams. The windtunnel cannot simulate the fast pitch and yaw rates that are encountered in the real world.
Is the whole rear wing moving of just the trailing edge? They could have purposefully built a weak point to let the angle of attack of the rear wing change under aerodynamic load... Feel free to correct me, I'm still a high school student in a big world.Vanja #66 wrote: ↑27 Mar 2023, 14:02So, rear wings don't flex any more?
https://i.ibb.co/hfrjXQ7/jeddah-2023-williams-flex.jpg
Just as a reminder, camera is fixed on the chassis, so the suspension movement under braking is observed with rear tyre movement (also marked)
, really interesting to see.The new Merc rear wing flexes quite noticeably. Definitely part of their lower drag philosophy.Vanja #66 wrote: ↑27 Mar 2023, 14:02So, rear wings don't flex any more?
https://i.ibb.co/hfrjXQ7/jeddah-2023-williams-flex.jpg
Just as a reminder, camera is fixed on the chassis, so the suspension movement under braking is observed with rear tyre movement (also marked)
A question about graphic, the part marked as "peak downforce" and illustrated by the blue zone, is thst not peak vacuum in venturi position with downforce being enacted by the roof of the tunnel upstream of that location ?Vanja #66 wrote: ↑26 Mar 2023, 17:40It's not really a theory, it's a well discussed fact during last year. The profile of RB18 and now AMR23 (by the looks of it) provides a small and powerful low-pressure zone in the rear and somewhat limits the potential for more downforce on its own. The profile, not the floor. One of the reasons Ferrari had more floor downforce than RB18 until TD39 kicked in and the car was raised forcibly.
The one thing that became clearer now with more pictures is that there is actually a (very) short surface of the throat, but it did look like an edge last year. Doesn't change the philosophy, just the pressure distribution a bit...Vanja #66 wrote: ↑13 Sep 2022, 10:31https://i.ibb.co/2dWCbvp/iBwWx4U.jpg
***
https://i.ibb.co/44dsV89/rb-floor.jpg
This is very far from what typical ground effect floor pressure distribution looks like and the rear end is practically the same as previous generation diffuser floors. You can be sure that other teams, with conventional ground effect floor design, have a very, very different pressure distribution, far more even as opposed to RB peaky downforce design.
The amount of movement here is small imo.Vanja #66 wrote: ↑27 Mar 2023, 14:02So, rear wings don't flex any more?
https://i.ibb.co/hfrjXQ7/jeddah-2023-williams-flex.jpg
Just as a reminder, camera is fixed on the chassis, so the suspension movement under braking is observed with rear tyre movement (also marked)
