- Login or Register
No account yet? Sign up
Team: Tim Goss (director of engineering), Paddy Lowe (TD), Neil Oatley (DRD), Martin Whitmarsh (TP), Jonathan Neale (MD), Sam Michael (SD)
Drivers: Jenson Button (5), Sergio Pรฉrez (6)
Anti dive doesn't have much to do with that. The main way to produce anti-dive is produced by the use of heave springs and the like. They are bars, torsion bars, springs, dampers and struts that stop the front from pitching up and down to much. It is very similar in the way that an anti roll bar stops a vehicle from rolling left and right by connecting left and right wheels however works in a longditudanal plane rather than a horizontal one.Tim.Wright wrote:Yea I still think everyone (except for one person on that page) have it backwards. It might have anti dive, but its a very low value. Tilting the arms back like that lowers the anti dive effect because it puts the side view instant centre down near the ground plane.
Exactly that!ringo wrote:So far we've seen band aids on the car.
Mclaren are pretty good on aero development. They don't often miss. If they have been trying to fix the car for the past 4 races, expecting the problem to go away with each attempt, i'd be worried.
Truth is Mclaren know what their problem is, but the problem is so messed up, it's not just a simple wing change and voila! Redbull beater!
Putting a new nose on a dog of a car wont magically make everything work. The whole front wing affects "everything behind it" is true to some extent, but is very over exaggerated and overstated to the point things get out of hand.
Loking on last years car, which was very quick coming down to season's end, and this year's car you will have to look on what has changed.
It's more logical to point out the changes as the problem than something tried and proven like the front wing.
Now maybe, just maybe they do need a new multi element wing, to synchronize with the aerodynamic characteristics of what they have now. Maybe the Mp4-28 transient behavior warrants a 5 element wing. But the elephant in the room may be the less easier to blame things. Things that take more analysis to understand or things that simply cannot be changed, like the tub, and the team has to work around it.
Then your understanding of anti dive is different to the definition used by everybody in the industry...trinidefender wrote:Anti dive doesn't have much to do with that. The main way to produce anti-dive is produced by the use of heave springs and the like. They are bars, torsion bars, springs, dampers and struts that stop the front from pitching up and down to much. It is very similar in the way that an anti roll bar stops a vehicle from rolling left and right by connecting left and right wheels however works in a longditudanal plane rather than a horizontal one.Tim.Wright wrote:Yea I still think everyone (except for one person on that page) have it backwards. It might have anti dive, but its a very low value. Tilting the arms back like that lowers the anti dive effect because it puts the side view instant centre down near the ground plane.
I stand corrected. One of the things with suspension set up is that you can only see part of the suspension and unlike aero where it is clear how you can see everything working. Nobody knows the compression and rebound settings on the suspension either. It does APPEAR that the front is set up very hard to run as low a ride height as possible.Tim.Wright wrote:Then your understanding of anti dive is different to the definition used by everybody in the industry...trinidefender wrote:Anti dive doesn't have much to do with that. The main way to produce anti-dive is produced by the use of heave springs and the like. They are bars, torsion bars, springs, dampers and struts that stop the front from pitching up and down to much. It is very similar in the way that an anti roll bar stops a vehicle from rolling left and right by connecting left and right wheels however works in a longditudanal plane rather than a horizontal one.Tim.Wright wrote:Yea I still think everyone (except for one person on that page) have it backwards. It might have anti dive, but its a very low value. Tilting the arms back like that lowers the anti dive effect because it puts the side view instant centre down near the ground plane.
Anti dive is a geometric effect which comes from the kinematics of the control arms. It decides what ratio of braking force is tries to extend the suspension against the effects of forward load transfer. It (typically) has nothing to do with springs arbs etc, the effect comes almost purely from the links.
With regards to the McLaren, it looks to me, that the side view instant centre is near or below the ground. That means almost zero or a negative amount of the braking force is working to open the suspension.
Perhaps they are running low anti dive because they have hard springs at the front. Perhaps they have hard springs at the front because they have low anti dive.. who knows.
But basically, everybody need to stop saying this car has "extreme anti dive" because its actually quite the opposite. Any bit of reading on the subject will clear that up for you. Draw an FBD of the hub in side view during a braking event and you will see the same.
A stiff front combined with low anti dive makes senses. But like I said, I don't know which is the cause and which is the effect.trinidefender wrote: It does APPEAR that the front is set up very hard to run as low a ride height as possible.
It doesn't, and surely they are. Just that any front suspension movement in the video posted earlier is imperceptible.Lycoming wrote:why does stiff suspension mean that the dampers aren't doing anything?
Possibly. The Mercs certainly seem to prefer low fuel, if the last race is any guide - two different cars. The McLaren also seems to be a bit nicer to its tires on heavy fuel, but that advantage doesn't seem to cary through to the final stint.Jackles-UK wrote:2. The car seems to be far better in race-trim than in qualifying, but as the race goes on both drivers seem to have lost late places - could this be due to the added weight of the fuel dragging the car along the ground into its optimum operating window (in a similar way to the way it did in Jerez all that time ago)? Obviously it's not faster with the fuel in but maybe they lose comparatively less performance than others?
Not only the damping but most of the springing contribution in an F1 car is in the tyres. The tyres are typically a lot less damped than the suspension itself, so the more you rely on them the less damped the "complete" (springs + tyres) axle seems to be.Jackles-UK wrote: 1. With regards to the McLaren trait of rock-hard suspension - if the suspension doesn't move then almost all of the damping is taken place through the tyres. With the changes to the rigidity/construction of the sidewalls (and the now infamous strange 60% tyre model that Pirelli gave to the teams for that matter) could it have hindered McLaren more because they rely more on the flex through the tyres which is either doing more or less bouncing than anticipated in 60% form?