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Tim.Wright wrote:I believe LMP cars have more downforce because their body shape is simply better for downforce creation than an F1 car. This is thanks to the rules rather than the skills of the relative designers.
LMP cars have a massive underfloor area and faired in wheels. F1 cars are stuck with the wheels out in the open for no reason other than tradition and it basically stuffs up whole aerodynamics of the car.
How so? The LMP's got possibilities to enormous front diffusers, much larger than F1 front wings, front downforce is at such a point that it requires a more forward weight distribution and larger tires at the front. I believe last year Audi ran wider tires at the front than at the rear.tuj wrote:I totally agree that a LMP car should be more efficient at generating df due to the floor design and covered wheels. But I'm just surprised that without a front wing, those LMP cars are getting enough front downforce.
Nope. front tires are very slightly narrower than the rear, but almost the same size. Nowhere near the size difference that you see front to rear on an F1 car. This is a relatively recent trend which I believe HPD started with the ARX-02.wesley123 wrote:I believe last year Audi ran wider tires at the front than at the rear.
probably, since they have about a 200 kilo weight advantage and pull more Gs in corners, though maybe not with the Monza aero package, which is a more direct comparison.tuj wrote:How about DF/kg? An F1 car has to win there, no?
Checked it and you're right, the Audi sport technical page states " front: 360/710-18; rear: 370/710-18". Although it would somewhat make sense to run even wider front tires, with the Electric system driving the front wheels plus the aero load there is a large shift in balance forwards.Lycoming wrote:Nope. front tires are very slightly narrower than the rear, but almost the same size. Nowhere near the size difference that you see front to rear on an F1 car. This is a relatively recent trend which I believe HPD started with the ARX-02.wesley123 wrote:I believe last year Audi ran wider tires at the front than at the rear.
Generally speaking, the size of the tires corresponds to the vertical loading on them. The original idea was to shift weight distribution (and downforce distribution) forwards to nearly 50/50 and then use the rear tires on the front as well for a 7% increase in contact patch area.wesley123 wrote: Although it would somewhat make sense to run even wider front tires, with the Electric system driving the front wheels plus the aero load there is a large shift in balance forwards.
True, but they'll still have quite a lot of downforce; you need it for dunlop curves, porsche curves, tertre rouge and the 3 braking zones on the mulsanne.flynfrog wrote:also if we are going simply to LMP1 prepped for Le Mans they are probably running the bare minimum of DF to keep the drag down for the massive strait.
Ever had a good look at the front diffuser on an LMP car? There's a lot more at work there than dive planes and louvers. Not sure about the rake thing. I thought they ran nose down, though not to the same extreme as red bull. Then again, I haven't looked all that closely. Where did you read that they ran nose up?tuj wrote:wow well I guess you learn something new every day. I had no idea the front end of the LMP car was so good at df. I guess you see that 'relatively' big front wing hanging out there on the F1 car and its quite obvious what its doing, whereas I know a lot of the work on the LMP cars goes into the dive planes and louvers.
Any ideas on the ride-height note, ie. LMP car running a higher ride height in front? That just seems counter-intuitive to me, but maybe I've watched too many hours of the RB9 chassis and its very rakish setup.
Agreed. Although the R15 showed quite well that Front downforce is much easier found than rear downforce. The R15 pretty much ran a front wing, and the R15+ and later version ran the legality panels in such a way that they can be considered a front wing flap.Lycoming wrote:Generally speaking, the size of the tires corresponds to the vertical loading on them. The original idea was to shift weight distribution (and downforce distribution) forwards to nearly 50/50 and then use the rear tires on the front as well for a 7% increase in contact patch area.wesley123 wrote: Although it would somewhat make sense to run even wider front tires, with the Electric system driving the front wheels plus the aero load there is a large shift in balance forwards.
But, I consider it generally preferable to run a rear biased weight distribution. The front wheel drive doesn't kick in until you're power limited anyways, so adding grip there doesn't really help in that regard. More rear biased will give you better traction on exit up until downforce kicks in and you become power limited, and it will give you better braking performance.
Also, even if your weight distribution is 50/50, your aero balance will be slightly more rear biased. I doubt you would want bigger tires in the front. I also suspect that would be prone to oversteer to do so, but don't quote me on that.
Ever had a good look at the front diffuser on an LMP car? There's a lot more at work there than dive planes and louvers. Not sure about the rake thing. I thought they ran nose down, though not to the same extreme as red bull. Then again, I haven't looked all that closely. Where did you read that they ran nose up?[/quote]tuj wrote:wow well I guess you learn something new every day. I had no idea the front end of the LMP car was so good at df. I guess you see that 'relatively' big front wing hanging out there on the F1 car and its quite obvious what its doing, whereas I know a lot of the work on the LMP cars goes into the dive planes and louvers.
Any ideas on the ride-height note, ie. LMP car running a higher ride height in front? That just seems counter-intuitive to me, but maybe I've watched too many hours of the RB9 chassis and its very rakish setup.
