I don’t understand this concept. I would expect an ICE and an EV vehicle with the same weight, speed, deceleration, tires, etc to have the same wear on tires. The difference being the energy to stop an ICE being transferred to the brake pads and rotors, rather than recharging the EV’s battery.
What am I missing? Why wouldn’t the tires experience the same forces in both scenarios?
It's because it's wrong. If you decelerate the same vehicle at the same rate, the tires can't even tell whether the deceleration is from regenerative braking or friction braking, so the only difference is less brake dust with regenerative braking.
If anything it's the opposite because regenerative braking is more effective when braking is gradual, giving the driver a direct convenience and financial incentive to brake less aggressively (better range, buy less gas or charging), which generates less tire wear.
Because it's completely wrong. The tires indeed experience the same force and don't care where the energy is dumped. As other posters wrote, the increased tire pollution from EVs is because they tend to be heavier, and because their considerable extra torque is likely to be (ab)used by their drivers. Yours truly included, guilty as charged, though I do practice restraint... often.
You're only considering braking, and for that case you're right. You're not considering acceleration, where EVs supply near maximum torque instantly when you press the accelerator pedal. This causes increased wear in tires, I've seen estimates of 20%.
Which can easily be sorted with a more gentle throttle curve.
My EV has three modes - Eco, Normal and Sport. In Sport you get shoved back in your seat from the instant torque, and the fast 0-60 times. In Eco you take off like in a normal car.
You also need to remember that traction control is inherrently easier and faster in an EV as the ECU has fine grained control of how much power to send to the tyres and can effect it near instantly.
It's due to the regenerative braking, which transmits more power via the wheels when decelerating. Most ICE cards don't have regenerative braking; hybrids tend to.
This doesn't make sense. Energy in the system is conserved. On an ICE car, brakes convert the energy to heat. On an EV, motors convert the energy to electricity. The tires experience the same net force.
EVs wear tires more quickly, in general, because they are very heavy and produce more torque (and drivers are more likely to request that torque, also).
I'd guess an ICE transmission provides some deceleration too. But right on, apples-to-apples you would need to compare a Tesla to a Mercedes or etc and not a Corolla. They are sold as a luxury/performance car.
Fundamental misunderstanding of physics. Slowing 2,500lbs from 60-0MPH in 4 seconds (for example) puts just as much wear on a tire if it's with friction brakes or with regenerative braking or engine braking.
What am I missing? Why wouldn’t the tires experience the same forces in both scenarios?