Hiya,
There haven't been too much threads about it but this one (old!) http://www.lfsforum.net/showthread.php?t=4214 shows a plot from LFS. I heard (blame Axus
) that load sensitivity was not or not modelled to a significant extend. I quite like LFS again with the patch; especially the 'race' cars have improved. I wonder how much of the remaining problems I have are down to load sensitivity not being modelled or not being modelled to a great enough extend.
There is lots of AVON excel data available, measuring lateral force at quite a few loads. It would be pretty easy to come up with load sensitivity curves for f3000 / f3 / fford tyres based on this data. I also have some numbers from Goodyear rubber from the Z06 Corvette. So should loadsensitivity not be modelled in a detailed way; I don't see why as there is lots of data around based on which you can realistically implement it (at least for lateral mu vs load).
Driving on South City yesterday, There is that drifty righthander, short straight, followed by what basically are 2 lefthanders, taken as one ish, the last one followed by an immediate right. I find myself always in some sort of fear at that corner (just one example) as it is so easy to initiate a sort of constant slide, where the effect of lifting or giving it a bit of throttle doesn't seem to change the balance of the car enough to stop this slide. In all cars this can happen and you can sort of leave a long skidmark, even though you're not *really* going sideways or giving driving inputs that could sustain this sliding.
Tyres are complex and it could be many things. However, thinking about it, load sensitivity might be part of it. During a long slow lefthander, your grip is mostly mechanical. Accelerating or lifting / braking a little mostly changes the load on the outside front and rear.
Now if load sensitivity where not modelled; the effect of lifting (which is what I'd naturally do) would not change the friction coefficient on the tyres. Load would change (weight moves to front) but the grip increase is linear. Hence the balance of the car not necessarily changing.
Now if load sensitivity is modelled, and I do the 'natural lift', weight would go to the outside front, making its friction coefficient drop a bit, causing some understeer. The rears have more lateral grip in this case as there is less load on them, plus you take away longitudinal force. Lifting would, I imagine, have a pretty siginificant effect on mild slides, straightening the car out, after which you can try again and apply power.
I also notice in LFS the general risk of oversteer on corner entry. Hard turn-in would load the outside front a considerable amount, loosing just a tad of efficiency and grip there. Washout some call it, is lacking, imo, in LFS. Braking into a corner is the 'worst case' for the tyre; lots of sudden load on it. It seems to have no effect on grip in LFS. Take T1 at Blackwood (the right hairpin) for example. Turn-in is unnatural to me, how there often is almost no risk of washout yet easy lift oversteer can happen very late into the corner, and once the slide has started, lifting or acceleration (change in front/rear load) doesn't seem to do enough.. I find myself somewhat unrealistically just choose to sustain the slide which costs far less time than trying to stop it and drive smoothly out of the turn.
Still, tyres are complex, this may be down to force combining all again but I think load sensitivity might be part of it. Since, as said, there is plenty of real info available to derive it from, I see no reason why it can't easily be improved, SHOULD it not be right at the moment.
The thread I linked to at the start of this post; perhaps someone can try to plot lateral grip at various loads with X30/31? Say the F08; which we can compare to the AVON formula 3000 data..
Whadda y'all think?
There haven't been too much threads about it but this one (old!) http://www.lfsforum.net/showthread.php?t=4214 shows a plot from LFS. I heard (blame Axus
) that load sensitivity was not or not modelled to a significant extend. I quite like LFS again with the patch; especially the 'race' cars have improved. I wonder how much of the remaining problems I have are down to load sensitivity not being modelled or not being modelled to a great enough extend.There is lots of AVON excel data available, measuring lateral force at quite a few loads. It would be pretty easy to come up with load sensitivity curves for f3000 / f3 / fford tyres based on this data. I also have some numbers from Goodyear rubber from the Z06 Corvette. So should loadsensitivity not be modelled in a detailed way; I don't see why as there is lots of data around based on which you can realistically implement it (at least for lateral mu vs load).
Driving on South City yesterday, There is that drifty righthander, short straight, followed by what basically are 2 lefthanders, taken as one ish, the last one followed by an immediate right. I find myself always in some sort of fear at that corner (just one example) as it is so easy to initiate a sort of constant slide, where the effect of lifting or giving it a bit of throttle doesn't seem to change the balance of the car enough to stop this slide. In all cars this can happen and you can sort of leave a long skidmark, even though you're not *really* going sideways or giving driving inputs that could sustain this sliding.
Tyres are complex and it could be many things. However, thinking about it, load sensitivity might be part of it. During a long slow lefthander, your grip is mostly mechanical. Accelerating or lifting / braking a little mostly changes the load on the outside front and rear.
Now if load sensitivity where not modelled; the effect of lifting (which is what I'd naturally do) would not change the friction coefficient on the tyres. Load would change (weight moves to front) but the grip increase is linear. Hence the balance of the car not necessarily changing.
Now if load sensitivity is modelled, and I do the 'natural lift', weight would go to the outside front, making its friction coefficient drop a bit, causing some understeer. The rears have more lateral grip in this case as there is less load on them, plus you take away longitudinal force. Lifting would, I imagine, have a pretty siginificant effect on mild slides, straightening the car out, after which you can try again and apply power.
I also notice in LFS the general risk of oversteer on corner entry. Hard turn-in would load the outside front a considerable amount, loosing just a tad of efficiency and grip there. Washout some call it, is lacking, imo, in LFS. Braking into a corner is the 'worst case' for the tyre; lots of sudden load on it. It seems to have no effect on grip in LFS. Take T1 at Blackwood (the right hairpin) for example. Turn-in is unnatural to me, how there often is almost no risk of washout yet easy lift oversteer can happen very late into the corner, and once the slide has started, lifting or acceleration (change in front/rear load) doesn't seem to do enough.. I find myself somewhat unrealistically just choose to sustain the slide which costs far less time than trying to stop it and drive smoothly out of the turn.
Still, tyres are complex, this may be down to force combining all again but I think load sensitivity might be part of it. Since, as said, there is plenty of real info available to derive it from, I see no reason why it can't easily be improved, SHOULD it not be right at the moment.
The thread I linked to at the start of this post; perhaps someone can try to plot lateral grip at various loads with X30/31? Say the F08; which we can compare to the AVON formula 3000 data..
Whadda y'all think?
XRG_Road Going.set
I'm on a coffee / beer / choclate diet; perhaps I'll try to make sense of your art there later Android
I never tried a road going set before, but it was really fun to just drive around in the sunset, looking at the great work the devs have put down on this track. I really liked the FFB your set gives -- feels just right IMO. I'll use it for some laps like that when I need to relax after a race!