How would pirelli know? No-one ran next year's cars.Ryar wrote: ↑16 Dec 2021, 08:39http://www.gptoday.com/full_story/view/ ... ap_slower/
Formula 1’s new-for-2022 cars will only be half a second per lap slower than the 2021 packages, and will likely surpass their predecessor’s pace through the season, according to Pirelli.
“According to the latest simulations from the teams, the new cars will be around five tenths of a second slower than the current cars,” explained Pirelli chief Mario Isola.
“[That is a] gap that they will probably manage to overcome anyway by the end of next season.”
Pirelli’s 18-inch tyres were run by nine of the 10 teams during two days of running at Yas Marina, with the company encouraged by initial feedback.
Drivers ran mule cars – the majority of them from the 2019 season – that were modified in order to accommodate the larger and heavier wheels.
“I have to say in general we found first of all the delta lap time between compounds in line with our tyre development test, so I can say this number is quite in line with our findings during the year,” said Isola.
I wonder if the new wheels will slow down direction changes?
Chain Bear did a great YouTube analysis on the pros and cons of larger diameter wheels and tyres. But I can’t remember if he looked at the change in overall diameter, terrible memory! I would say that it is probably not as significant as the other changes with the new tyres like unsprung weight increases and the rear wheels being larger diameter effecting power delivery and gearing.nokivasara wrote: ↑16 Dec 2021, 17:43I wonder if the new wheels will slow down direction changes?
Surely the gyroscopic effect is greater with taller tyres?
I'd agree that those are valid points - but perhaps the major safety issue for me is the increased tether loadings to keep these massive things attached in crashes or incidents.Ryar wrote: ↑16 Dec 2021, 18:03In the last few years, the weight of the F1 wheels (tyres included) have significantly increased and for 2022, it's set to increase even more. What impact is this going to have on the pit crew that has to lift and run (at race pit stops) and bring them out to fit to the cars? Shouldn't that be a factor considered seriously?
yes somewhat greaternokivasara wrote: ↑16 Dec 2021, 17:43..... direction changes?
Surely the gyroscopic effect is greater with taller tyres?
We can certainly hope!!CMSMJ1 wrote: ↑16 Dec 2021, 18:27I'd agree that those are valid points - but perhaps the major safety issue for me is the increased tether loadings to keep these massive things attached in crashes or incidents.Ryar wrote: ↑16 Dec 2021, 18:03In the last few years, the weight of the F1 wheels (tyres included) have significantly increased and for 2022, it's set to increase even more. What impact is this going to have on the pit crew that has to lift and run (at race pit stops) and bring them out to fit to the cars? Shouldn't that be a factor considered seriously?
Another 2.5/3kg travelling at speed on top of the already hefty weight is a lot of energy.
I do wonder whether there will be a high water mark of heavyweight vehicles and that there is a global focus on reducing mass to try and get laptime instead of brute power and downforce.
I think it's the opposite. It will have higher rotational inertia, also more braking force is required even with the same mass at a higher radius.Big Tea wrote: ↑16 Dec 2021, 17:49Will these tyres be more prone to flatspotting? I don't know how to work it mathematically, but a gut feeling is that a bigger taller heavier unit 'feels' like it would flatspot more easily? The ride height is going to be the same is it not? so C.O.G. will not be higher overall will it.
Is there (excuse my techspeak here ) less 'squirming room' in the wall so it will lose any movement sooner rather than 'skip'.mzso wrote: ↑16 Dec 2021, 20:35I think it's the opposite. It will have higher rotational inertia, also more braking force is required even with the same mass at a higher radius.Big Tea wrote: ↑16 Dec 2021, 17:49Will these tyres be more prone to flatspotting? I don't know how to work it mathematically, but a gut feeling is that a bigger taller heavier unit 'feels' like it would flatspot more easily? The ride height is going to be the same is it not? so C.O.G. will not be higher overall will it.
Never thought of the change to the sidewall compression under braking... Would the rate increase be additive with the 3rd springs?Big Tea wrote: ↑16 Dec 2021, 20:53Is there (excuse my techspeak here ) less 'squirming room' in the wall so it will lose any movement sooner rather than 'skip'.mzso wrote: ↑16 Dec 2021, 20:35I think it's the opposite. It will have higher rotational inertia, also more braking force is required even with the same mass at a higher radius.Big Tea wrote: ↑16 Dec 2021, 17:49Will these tyres be more prone to flatspotting? I don't know how to work it mathematically, but a gut feeling is that a bigger taller heavier unit 'feels' like it would flatspot more easily? The ride height is going to be the same is it not? so C.O.G. will not be higher overall will it.
nokivasara wrote: ↑16 Dec 2021, 17:43I wonder if the new wheels will slow down direction changes?
Surely the gyroscopic effect is greater with taller tyres?
Can't all these questions be answered by watching F2, who have been using the tyres for two seasons?