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Not really, because the ride height is determined by the suspension, at 200kph the see saw is useless, as the floor is too high to touch the ground.timbo wrote: OK, think about this: say, you have a floor that allows 5mm flex. So, you set up a car that at 300 kph the floor is compressed most of the time, wouldn't this allow to have a floor at 5mm lower at 200kph,
You mean the lower the speed you can set your car on the ground. And setting the car on the ground is not a goal.and a floor that can't flex would be 5mm higher at 200kph. /quote]
Remember a seesaw floor and a typical floor is the exact same thing until they hit the ground.. with a lot of force.
So, the lower the speed that you can set your floor into flexing, the more usable DF you have at the medium speed range.[
hardingfv32 wrote:Ringo
Your last post only adds more uncertainty to everyones understanding of your position. You are not answering our questions directly. You THINK you are answering, but you are only creating new premises that require agreement. You are drawing out the discussion by not discussing with precision the premises that have clearly been stated in last couple of days.
No, i am saying the goal is not defined as it is contradictory. Remember i don't think wear is relevant if it gains nothing.This is a new premise never before proposed in this discussion. Without arguing the this exact premise, I would state our position on the "see saw" system as:
'the goal of the system is lower static ride height with acceptable on track plank wear'
Maybe it's my poor linguistic skills, but i don't think you all see it. I may need to make another gif, showing why seesaw wont allow you to lower the rideheight, as it only works from external contact.'with this system, plank wear is acceptable while using a setup of less static ride height.'
But the premise is wrong. Both splitters have the same exact shape until one touches the ground. Static ride height is the same for both.The premise is that a car using a stiff splitter AND this 'less static ride height' setup is going to have UNACCEPTABLE plank wear.
That is a strawman, i don't disagree with this statement. I disagree with the idea that there is a gain if the floor is scraping on the ground.'What is wrong with the premise that it there is more aero performance to be gained by reducing ground clearance?
Not really, they sit just the same. It's the spring rates that are higher.Now, I am not stating that there is constant aero improvement all the way to the ground, but just that the cars now sit higher than desired because of the plank wear restrictions.'
At the 200kph the floor is not touching the ground. The see-saw allows to run floor lower at 200kph, because it flexes more at 300kph.ringo wrote:Not really, because the ride height is determined by the suspension, at 200kph the see saw is useless, as the floor is too high to touch the ground.
Yes, it is not a goal. The goal is to run the car lower at the widest range of speed possible. That means sacrificing the top range.ringo wrote:You mean the lower the speed you can set your car on the ground. And setting the car on the ground is not a goal.
If the see-saw allows for less negative effects with the floor touching the floor at the top range, you can run car lower at the lower speed.as when the car is fully compressed by downforce, touching the track may not be a good idea and it doesn't make sense at low speed; as the springs aren't compressed enough for the floor to touch the ground.
The question is whether you can achieve HIGHER flexibility under current TEST PROCEDURE with a See-Saw. If the answer is YES than the system is potentially beneficial.Now maybe flexing at a curb helps the car stay stable over it. But this feat is achievable with a cantilevered suspension.
Ok i see what you are saying. You are saying that the plan is ride lower than usual so at high aero loads you knowingly bend the floor on the ground at 300kph knowing that the floor can flex.At the 200kph the floor is not touching the ground. The see-saw allows to run floor lower at 200kph, because it flexes more at 300kph.
As for this, i was never arguing test procedures. That's the boring part, because at the end of the day moving aero is illegal and that rule trumps all.The question is whether you can achieve HIGHER flexibility under current TEST PROCEDURE with a See-Saw. If the answer is YES than the system is potentially beneficial.
Agreed.ringo wrote: The team doesn't want the car to touch the ground however, but they may choose a suspension setting that say, is fitting for 98% of the lap, but not hard enough to prevent bottoming in 2% of the lap. That 2% is a side effect not a desire, but they'll live with it.
Agreed.ringo wrote: But that's like an oxymoron. The see saw only works if it is in contact with the ground.
It is driven by external contact.
Agreed.ringo wrote: There is no reason for the floor to touch the ground, it does nothing.
Nothing by itself, it allows to run the car lower the other 98% of the time.ringo wrote: So i am still waiting for the bullet points of what this thing is supposed to achieve in terms of lap time.
The gain is simple. If you run too low, you'll wear too much (in that 2% of the time you refer to yourself).ringo wrote: No, i am saying the goal is not defined as it is contradictory. Remember i don't think wear is relevant if it gains nothing.
Not really, they sit just the same. It's the spring rates that are higher.ringo wrote:hardingfv32 wrote:Ringo
That is a strawman, i don't disagree with this statement. I disagree with the idea that there is a gain if the floor is scraping on the ground.'What is wrong with the premise that it there is more aero performance to be gained by reducing ground clearance?
Now, I am not stating that there is constant aero improvement all the way to the ground, but just that the cars now sit higher than desired because of the plank wear restrictions.'
Yes, just another setup variable.ringo wrote:Where are 300kph speeds experienced and also how long a duration do you want your flexy floor to be scraping the ground? Remember that section is basically stalled once it's flush with the ground.
That length of time when the car is compromised determines whether or not this is pointless you see.
And you say stiff suspension doesn't have tradeoffs?ringo wrote:Because the ride height at 200kph that you say you can set with a flex floor still can be set with a non flex floor. Keep in mind spring rates.
No, we have another potentially useful area of setup to explore.ringo wrote:It's only at the speed at with they touch the ground will we see a difference between the two.
But actually a lot of performance can be gained from the boring parts.ringo wrote:As for this, i was never arguing test procedures. That's the boring part, because at the end of the day moving aero is illegal and that rule trumps all.
Okhardingfv32 wrote:1) A discussion about plank contact with the track at 300 kph for any extended time period SEEMS beyond the wear capabilities of known plank materials even using the "see saw" system.
nope it's not a wing. the floor wont stall completely if it's raked though. It will lose efficiency.2) Does stalling the floor produce less drag?
So you are telling me that a pivot is not part of a mechansim? Flexing is moving aero. It is clearly written in the regs that surfaces should be rigid, hard and continuous. A flexi wing is one thing, a pivoted floor is overboard.3) This is not moving aero, it is FLEXING aero. Have they DQ'd Ferrari during the last two events? You design to the way the rules are interpreted by the officials.
The way how this discussion was going i thought it was about plank wear.4) Is this not really all about getting the front wing closer to the ground? The plank wear issue is what is stopping that goal from being achieved?
