The Physics of Froomey's Disc comments.

Pinned reply to many comments: I do not state in any part of this video that rim brakes are superior. Im saying road discs don't seem to be suitably sized for the thermal load. But hell they still work better than rim in the pissing rain on a 10km downhill. If i had a component company, i wouldn't have released disc road brakes in this state of development. They're not good enough. Too many inconsistencies, noise, too little cooling.

I don't have these problems with the discs on my bike but that is probably because I'm 4 times slower then Chris Froome.

Weight weentard here. I remain unapologetic for demanding lightweight shit, haha. I think the variance of system weight is also hilarious. I weigh 51kg with a 7kg disc brake bike. System weight of 58kg. There are 107kg guys out there riding 9kg bikes; 116kg system weight. Most of the time they're equipped with the same braking systems as me. That would be like a pickup truck having the same brakes as a Mini, it just ain't gonna work. The industry has convinced you that you really do need 3 different depth of wheel to suit every occasion; but a 50kg and a 100kg guy can use the same brake levers and calipers no problemo.

There is a solution to this... Make the discs 622mm in diameter.

I live in the alps and am regularly doing descents of between 500 metres and 1000 metres on road and mountain bike. The road descents are completed a lot quicker and the braking requires much greater deceleration. Typically 70kph to 30kph for a hairpin in just 20 metres. The heat stress on the brakes is enormous.
I bought a new bike with disc brakes and whilst there have been some clear advantages, sometimes the brake behaviour is appalling with a lot of noise and vibration caused by the heat.
And the cost in replacement brake pads and discs is quite large compared with rim brakes.

Well said. To be fair, It's not just the weenie demand in itself, it's also the brands bombarding everyone with 'Lighter And Stiffer!' each year, for the last 20 years.

I'm not concerned by brake setup weight but I want a system that works without rub, noise, etc. The industry is forcing my next road bike option to only be a disc before they've solved these problems. I have discs on my MTB and gravel bike but don't need them on my road bike.

Froomey sending ripples across YT. Awesome summary mate! Thanks.

That scooter analogy is a damn good wakeup call.
Total system weight of road bike + rider is in the range of 50-100 kg. Total system weight of scooter is around 150-300 kg. Rotors on even a little 150 cc scooter have significantly more thermal mass than on your weight weenie bike, even though they max out at about 75kph. We're putting big demands on our lightweight road bikes that's for sure

If i was a roadie, i would probably still use disc brakes, but with a nice big rotor. Probably just as good for a regular guy, but i won't have to trash a wheel from wearing out the rims.

I started cycling on mountain bikes, back in the cantilever and v-brake days. I understand roadies like rim brakes for several reasons and that today’s systems are much better than the crappy ones I had on my bike 20 years ago...but I still like disc brakes on my road bike...

Durianrider will be wetting himself by all of this disc smack down.

A couple things. Shimano uses servo wave (variable leverage), so there is "free lunch" to some extent -- it can probably be tweaked for more pad clearance, but at the expense of backwards compatibility. Also, Tektro does offer their Dorado system with thicker 2.3mm rotors (though not with road levers).

They deserve to be recalled once they sort these issues out, especially considering they don’t meet market demands, except in weight which IS an infection, well put. We(the Industry/Buyers)need to back off the wave and in so doing bring back into focus the simplicity and joy that cycling IS.

Was cycling the other day on my mate's bike, borrowed his tarmac with dura ace callipers on dura ace aluminium braking surface wheels. Car pulled out in front of me, pulled the brakes, nothing happened. If the car didn't stop I would have been through his door window. Disc brakes at least work.

You're assuming a linear lever throw/caliper piston relationship, but shimano has always used rising rates (servo-wave). They'll probably use this to get around the problem.

The tighter pad clearance on road discs is the main issue I've had to deal with. SRAM Rival were very problematic but Shimano GRX seem better quality and much more reliable. They're still sensitive to setup compared to my past MTBs though. Good to hear they're going to be working on it.

I'm old enough to remember racing with Wienmann brake levers that had two lever positions, which was very useful if, for instance, a slightly untrue rim caused rubbing during a race. I wonder whether a two position dis brake lever, allowing a rider to temporarily increase the gap between pad and disc without stopping, might be a marginal gain worth having.

Fearless forecast: 4 piston calipers will be on road bikes in a few years.

I'm genuinely really happy with my road disc brakes in the UK, they feel miles better than rim brakes. But yea I don't have a giant mountain to get down. Although I have ridden at 70kph+ I've never had to stop really hard from that speed (say for a hairpin turn). So I can see that it might be a problem for Froome

Physics always compels a reckoning. There is another design response to the heat dissipation, mechanical advantage conundrum. Larger discs. Oops, a little extra weight then. Well, two out of three ain't bad.

cant wait for Froomey’s response to this video:)

I wasn't much of a Froome fan but after that video my respect for him has increased massively.

Froomey also mentioned a lack of stiffness in his integrated bars. Do you think maybe that might come from the lack of supporting material at the t joint of the bars? I would guess it's hollow there, contrary to a separate bar and stem which has extra material to support the clamping forces

Mmm I think I’ll nip out and fit some nice callipers to my car!!

About pad clearance vs force multiplication: the "Servo-Wave" mechanism was created for this exact reason which effectively introduces a lever ratio increase as a function of lever throw. As far as I'm aware it's also being used in road levers. In assuming that Shimano will compensate for the detrimental effects at least partially by increasing the "servo-wave" effect (steeper curve/more ratio change).

Glad I kept my Merida Team bike (rim brake) and resisted the disc band wagon. Discs are a pure marketing exercise as the manufacturers are running out of ways to go to upgrade road bikes. If you have a top spec road bike from the last 5-6 years, you're not going to be faster on anything newer.

Regarding Caliper vs Lever throw ratios: can you address that by making the actuation non-linear? You can have the first 10% of the Lever movement be responsible for the first 90% of the caliper movement and then you have a full 90% of your lever movement left to use on your actual braking

At the risk of sounding like a "save the rim brake" dork, (and being closer to a dentist than an engineer...) I think the real missed opportunity was Direct Mount rim callipers. Such a good, solid braking force and light! Not disc brake power but more effective than standard single bolt rim brakes... but the industry moved towards discs the at the same moment DM brakes became a viable option.

I find disk brakes to be very reliable (rubbing is easily fixed, I'm not sure how/why they'd warp) but I think for MTB the #1 requirement is smooth, textural brake feedback to deal with adverse traction. It's honestly the hydraulics that have changed it.

What I've been waiting to hear but not want the bike industry wants you to hear. Thanks for the concise analysis!

Suprised no mention of disks going to a carbon/carbon setup. I remember when carbon disk brakes first came on the scene in Motorcycle Gran Prix( now Motogp) racing. The initial problem with the carbon brakes was heat retention. They needed more heat to work hence why earlier versions ran shrouds covering the carbon rotors to help keep the rotors from cooling down. So in theory wouldn't carbon rotors with carbon pads be a viable option to look into?

If you have heat issues with disc brakes, won't you have heat issues with rim brakes? Especially with carbon wheels? Yes, mountain bikes may go slower when using brakes, but they get used much more often.

The clearance between disc rotors and pads is governed by the retraction of the piston which is controlled by the piston seal and the design/shape of the groove in the caliper that the seal fits into

And yet I never experience fade on my disc road bike, but do sometimes experience fade when riding MTB trails.

I think on fully mechanical brakes like trp spyre. It would be easy to make the pads move initially faster and then the speed changes to more power when pads get closer to disc. When I took my trp brakes apart for cleaning and re lubricating, there were 3 pall bearings inside on ramps in slots. when the ramps move, the palls push the ramps away from each one. If the ramps had a curve.. at first deep ramp and then goes more shallow. It would solve the problem with too little clearance. Braking power would be same, free play of lever would be same, but the clearance would be bigger.

I think Disc's are good for wider tire set ups say 30mm or wider. I like 25mm on the front and 28mm on the back. I also live in Holland so rim brakes make perfect sense to me. Great video PT I'd like to more on this topic.

There is free lunch! Shimano calls it "servo wave" and I think other companies use the same system. Basically it realizes different leverage ratios during the free stroke and on the contact point. In the MTB world it has been around for years. Some people don't like it because the brakes have "less modulation".

To me it seems like the weight weenies are the problem bot the brake itself. Sometimes you also do 60kmh on a MTB 😁

Discs vs rim is like when 911s went water cooled. Better in every way but people lost their shit.
Even if you only think discs are equal in terms of performance (not true they are only close to equal in the dry) the fact the wheel is no longer a consumable makes discs a no brainier.
Wheels on my bike have a lifetime warranty, hard to do that if I’m wearing it away every time I brake.

Bigger master cylinder not longer lever throw . That's basic automotive engineering

I wonder whether the lever ratio issue might be addressed to an extent by careful choice of piston sizes at the brake lever and calliper. Regarding additional weight from moving to larger discs and or callipers - is there no already a bit of headroom in that frames are now so light that weight has to be added to meet UCI minimum weight requirements?

Froomes team is sponsored by SwissStop. Their discs are not very good compared to Shimano, so some of his issues could be solved by not using bad discs

The free snack comes from servowave. Non linear pad travel vs lever travel. This way you can have the extra clearance and very low braking force in the "empty space" until the pad contacts the rotor.

Disc brakes might be a problem for road racing, but it really is one of aerodynamics, isn't it?
Also, do road pros really go to the point of overheating when braking? It's not like they descend constantly braking, and you very much have ways to increase your system boiling point through the use of bionol and metallic pads for instance if need be.
The constant rubbing is an other issue altogether, but it takes 2min to fix.
I genuinely think there's no point in going for rim brakes aside from aesthetic reasons if one isn't a pro racer. The sheer advantage in braking power discs offer is just too good a feat, especially if you consider all-weather applications. It's also almost completely set and forget if one goes the hydraulic way with a mineral oil system; one change of pads once in a while and that's it, there shouldn't be any need for bleeding for years to come if it's been well set up.

I live in Japan and ride mainly in the mountains here. Since there aren't many particularly nice aluminum wheelset anymore I like the trade off of disks with carbon rims for long descents since I don't get wheels for free. Have had very few issues with rubbing, but many riding buddies do. Maybe I just got lucky!

I've had disc and rim on a tcr like you and prefer the rim bike. I had issues with the discs rubbing and a leak from the master cylinder which almost wrote off my sportive the shifter was replaced under warranty but wasn't fun loosing my front brake on a descent.
Huge respect to froome as I totally agree using both on the same bike. Personally I'll stick on rim as long as I can. Alloy wheels in winter and carbon wheels in summer been perfect so far.

Servo wave, man. There's no downside to less mechanical advantage in the travel range before the pads contact the rotor. I assume Shimano will add a little cam as they do with the mountain bike levers to have adjustable leverage. That aside, the solve for road disc in general is just bigger, thicker rotors. They started at 140mm (hilarious) and now, five years on, 160mm is the standard. It'll be 180mm or more soon. The cooling rate for the calipers (and the little pad fins) just isn't high enough for that mass to make an appreciable difference (especially when it's trendy to hide them behind fairings).

can you talk about his comments regarding o-rings making the chain more stable with larger mech cages i.e. ceramic speed?

I think we also have to consider the head wind regarding the cooling of the discs. Double or factor 1,5 of the speed of a MTB could take away more thermal energy.
I don't know in numbers how this affects the braking function but for sure it has an affect.

Road calipers are pretty crap but what would stop you from mounting a MTB caliper on your road bike? As long as you use a post mount to flat mount adapter you could probably reduce the problem.

@Peak Torque did you see that Froome was using Magura calipers with DuraAce levers in the Tour de France?
Maybe a followup vid

I am going to go against the flow here. I don’t see why people have issues with disc brakes. I have 3 bikes with discs. 2x Dura Ace and 1 Ultegra. Of the 3 1 made a noise 2 didn’t. I centralised the callipers, and swapped the wheels between 2 bikes neither bike made a noise, I then swapped them back and the noise has gone. There are less moving parts on disc brakes and less service requirements. I prefer discs to rim brakes and will never go back.

Would be interesting to run the numbers on the aerodynamic drag induced energy losses, ie how much of that 70kph equivalent energy actually needs to be scrubbed by the discs and also how much the extra cooling of the 2x wind speed over the calipers / disc gives you.

We need to go back to putting our foot down and using our heels to stop , never failed me in the 80s and I had crap shoes

Next generation of leaver ratios could work a bitt differently. You state that "there is no such thing as a free lunch". However, I recon you could solve it by having a 1:6 ratio in the beginning of the travel, and a 1:15 closer to the end where you would expect pad contact. In a hydraulic system you could do this with a two stage piston opening for a larger area --> grater force, or a coned blader system causing it to be exponential. For mechanical brakes, a small pulley wheel could also do the job. Of course, an extra set of adjustment knobs is needed to compensate for brake wear --> more money to the manufactures.

Well said. I wish rim bikes were still popular

Nice logical explanation. In my experience MTB does often achieve higher speeds than you say, but the thermal issue does not seem to arise because MTBs seem to have more appropriate disc braking system - even the weight sensitive XC gear. I think in time the specs will improve to provide better/more appropriate disc brakes on roadies.

Love my disc brakes - don't seem to have all these issues. I maintenance myself and follow manufactures guidelines. Its not always the brake thats the issue

It is possible with clever linkage design to have the brake lever initially move the master piston quite a long way and then rapidly drop to a very short stroke per unit of lever motion. That way you could get over the initial high pad clearance with a low mechanical advantage (where you don't need it) and then have a high advantage for the portion of the stroke where the pads actually touch the disc. Whether this is actually done or not I have no idea. Disc brakes are also nice in that you don't chew up your rims over time from braking (wheels last longer) and you can run light carbon rims without worrying about destroying them.

Eh, I don;t really have issues with either but I flex rim brake bikes enough that I do get wheel rub on the brakes pads if I'm out of the saddle sprinting or climbing. People worry too much about this shit. Rim brakes are fine, disc brakes are fine.

Great explanation, but what is the consequence of “over heating” in practice? And for that matter, what is an “over heated” system defined? I’ve been riding discs on road bikes for 2 years (less time spent in lockdown) without issue. I can live with occasional rubbing, irritating as it is, in exchange for wet-weather reliability.
Finally, as many have pointed out, I don’t ride > 70kmh very often, so I totally get why Froomy’s concerns are based on different requirement to mine.

I hear your lighter when you can't stop!!

I've done a lot of braking at the speeds you discuss. I am a 109kg rider, typically on a 15kg recumbent, with 20kg of groceries, and my rides are typically for local errands, but with the "alpine lakes" terrain around here it is very unusual for me to descend any slower than 30mph, and I usually feather speed over 45mph off with the brakes, although there is one (and only one) descent around here which actually is safe to do 50+mph but don't tell my wife. Amateur tip: when you feather speed on a descent, start off with the rear brake to keep the front one cool. if the descent is long enough that the rear brake starts to fade, well then you have to decide if you can afford to warm up the front brake to let the rear cool, or whether that isn't safe enough. I have never gotten to that point.
Most of my bikes have good old Avid BB7 with steel 160mm rotors, and cables. And I've trusted my life to them many times. (I do actually test them from time to time to make sure panic stops on these descents are credible). One of my bikes has hydraulic rim brakes. It was originally cable rim brakes, but they weren't that trusty no matter how adjusted, so I upgraded them. They still aren't that trusty. I don't use that bike if I think I'm going to have any adverse breaking conditions.
For those who actually care about the slower sort of bikes that UCI governs, the solution seems obvious. The UCI can change their minimum weight rule to include a minimum weight of the brake system on the bike. Then big old steel rotors will save the day and frankly, UCI can chalk it up to "less than best human effort"....

Disc brake development will continue off the charts. So much so all the current disc frames will be obsolete cause they will need different mounting spacing. So you need to buy newer frames for better disc brakes. We are just chasing own tails.

Could you please comment more on the aerodynamic difference between disk and rim brakes? According to Hambini, disks pay 10Watts more drag at 30kmh than rim, which sounds like a lot

Tell that to the Rires Of Japan guy 😂

Surely with the ever growing cargo bike and commuter segment, there must be a market for heavy duty systems for them to at least be produced? That said, I've never felt wanting on R7020 since I've only commuting at max 35mph on a short London downhill, so no huge issues here.

Having a larger reservoir to compress under the lever means you don’t have to have a bigger lever travel. It’s easily designed.

I hadn't really thought about the heat issue. As I only ride slowly it probably doesn't affect me that much. In terms of performance I find discs are only superior to rim in wet grizzly conditions. I love that they don't chew your rims up in winter, for me that is a big selling point. Overall though I still find discs a lot of faff for what they are. I hate the way they keep needing to be re centred.

The speed argument is nonsense, the average(!) speed in Maribor in the world cup (downhill) was over 50 kph across the whole track 10 years ago. 29ers should increase that, but sadly it was kinda wet the last two times the world cup has gone there. And the speeds are not that high just there. Plus not everybody goes 60 kph on a road bike.
Then there's the gradient, which is usually much more severe for mountain bikes, meaning you brake longer or for a higher percentage of time. Sometimes it's hard to even let up to get some air in between the pads and the disc.
Granted, 4-piston calipers have become the norm in anything that's not XC, 200 mm rotors are pretty standard on anything with 140 mm or more travel, but still.
I'm not a roadie and don't have experience with any road brakes, but in MTB the lever throw, braking power and pad clearance has been successfully dealt with with progressive mechanisms in the levers. Unless you have a Guide/Code R which doesn't have a swing link and you're just moaning around the internet how horrible the brakes are without knowing why and throwing all Sram brakes into the same bin.
Rubbing is an issue everywhere and I fear is caused by dirty pistons getting stuck. Bellows covering it might help with the actual sliding interface not getting dirty (or being kept lubricated with grease maybe even?).
As for surface area and cooling... Start looking into Al discs? Make them 3, 4, 5 mm thick, that way they won't bend, won't rub as much and you'll have some more heat mass (Al has ~double the heat capacity per mass). It can't be impossible as the 1st gen Lotus Elise used aluminium brakes (for lightness), so how hard could it be? Also, what about ducts? Channeling air actively towards the calipers and rotors? Yeah, it will kill aero, I know... Maybe add a system on the brake line to only open the channel when you are braking?
EDIT: watched his video, he mentions that the thing works on the stand, but not on the road (rubbing & co.). Is the bike flexing under his weight? Are the wheels inserted properly? I ALWAYS tighten my wheels with the bike on the ground, so the hubs sit on the dropout ledges, in the same place every time. Even with through axles you can put your wheel in crooked. And it can cause rubbing (and shifting issues as well).

Would you also consider that the engineering of this issue could be leading to a change in disc material so as to dissipate the friction heat and negate the effects of warping on the disc material, would there be any ceramic or carbon alternative materials technology currently available for this ? 🤔

I get it, but the (non existent) wet braking on my carbon rims is downright dangerous. Plus theres the wear on those very expensive rims. Reluctantly, Im going to discs next purchase.

Ok just face it, disc are heavier but more effective in rain, rims lighter and competitive in dry condition.
What really matters is tyre grip. If you could lock up ur wheel with a same pulling...then not much differences.

🙌👏👏 Would i run a 180-200mm setup if i could, hell yes I would. Being limited to a 160mm setup is my biggest gripe about road disc.

Rim brakes, V Brakes, etc.. will rub too if they are not correctly aligned/tuned.

Cannot we just go back to rim brakes?? Was there a real need and demand for disc brakes on road bikes? Just saying...

Just thinking about the physics... Isn't it easier to stop a spinning wheel nearer the outside like a rim brake than try to stop it near the axis (disc brake)??Maybe it's similar it being easier to open a door at the handle rather than near the hinges.

All I am seeing/hearing are an anecdotes. Sure there was some good science here but it never looked at the system as a whole. It was simply an academic exercise. Nothing wrong with that as it provides a base for imperial science to be done but until then it's merely conjecture. Someone needs to lab test the two systems side by side so we can actually see the real differences.
Two pro level race wheels, one disc one rim. Get them up to a set speed and slow them to a set speed repeatedly to simulate a mountain decent. Then test a side by side long break drag down the same decent. Then show the results of both breaking systems - play, wear, rub etc... Until then I'd have to error the side of shimano (sram etc) engineers and my own anecdotes.

Would love to see an in depth video on the pros and cons of different braking systems. Whether that be disk, rim on aluminium or carbon. I live in the alps and went for Campagnolo Bullet Ultra 50, but on some long steep decents had some reservations about the heat into the wheels rims on the tires or blonding of the carbon to the alloy rims.

mate, awesome !

The issue with fitting larger rotors is that they further compromise aero and increase the already impressive ability to catch crosswinds. I regularly ride in crosswinds and swap between a disc setup consisting of a 160mm front rotor and 45mm deep rims and rim brake set ups consisting of 50mm deep rims. It is surprising how much more the disc setup suffers in the crosswinds. It seems in the quest to fit disc brakes more problems and compromises are made than solved. If a problem existed in the first place?

Wrong. Disc brakes work wonderfully on road bikes.

I could not agree more on the weight weenie syndrome. When it comes to brakes and dissipating heat, then yes we need a heavier caliper. For someone like Froome, I see his argument for rim brakes because he specializes in climbing. I mainly focus on gravel events and mtb so obviously the speeds aren't as high as the mountain passes that Froome is racing in. Do you have any info or opinion on carbon brake surfaces delaminating from those fast descents?

That's all well and good but still disc brakes are forced down consumers (and the peletons) throats for nefarious reasons. Manufacturers could just offer both options and let the consumer decide. There are some shady business practices going on here.

One thing I'm curious could layered ceramic or high carbon rotors help with the heat displacement? Hope Tech used to make layer rotors for DH racing but at $120 USD each they never really caught on
An anecdote about road disc brakes is mechanical can be vastly improved with full length compressionless housing, organic pads (vs metal scintered) and to cut the leaver ratio down I installed now discontinued Problem Solver inline Travel Agents. I don't noticed much difference between the rim vs disc in dry, but Avid BB7's with the retrofits on my CX bike does work better then Cool Stop wet weather pad on alum rim.
I do not miss riding canti in a muddy cyclocross race where you grab the lever and nothing really happens nor the build of up gunk with mini-v's

Regarding the brake clearance widening on next-gen Shimano -- so far, I've only seen that mentioned on next-gen electronic groupsets, so the lever effort might just be low because it's no longer mechanically linked to your brakes. The cost of that lunch will likely be paid in battery life. Of course, if it is also coming to their mechanical/hydraulic brakes, then... yeah... braking effort will likely be harder.

Can you explore braking surfaces in a future vid? i.e. alloy vs carbon
I've heard some horror stories of rim braking carbon clinchers

Cool video! I’d add two arguments for discs on road bikes:
better cooling because higher speeds mean more air passes over calipers/rotors
Less braking on the road then MTB. Even on long alpine descent you hit the brakes and then let them cool. MTB descending there is almost no time you are completely off the brakes.

Is there some way of changing the mechanical advantage throughout the throw of the brake piston, much as one might use a cam with a cable system? I guess not because you kind of have to maintain a constant cross-sectional area...
Or maybe have a system with 3 cylinders sharing one piston but only the central cylinder works initially, with a low mechanical advantage so it can cover the distance to the rotor pretty quick, but once it makes contact with the rotor the increased fluid pressure opens valve to the other 3 cylinders, trebling the piston area and hence piston force?
Maybe it would make for really poor modulation but it would solve your pad travel problem. I think you're right about heat dissipation in that the only real way to solve that is to add more mass - or get really ingenious with heatsinks?

Mechanical discs like an Avid BB7 really do solve this problem allowing the user to adjust the piston throw themselves allowing you to balance the lever feel with risk of brake rub. Mechanical advantage remains the same no matter the adjustment. I assume hydraulics win in mechanic advantage which is why they have better stopping power?

I want to my experience (or should I say, anecdotal evidence) to the discussion. I went on a bike tour to the Alps. I have descended Stelvio and Mortirolo on 2015 MTB disc brakes, and the brakes didn't fade and I'm here to tell the tale. I had heard of tire blowouts in rim brakes but I think it is largely inexistent with modern alloy wheels, because one of the riding buddies was terrified of descents and dragged his rim brakes on these 15-20 km descents, with panniers on, and no blow outs happened. I would suppose modern road disc or rim brakes don't fade or blow out as often as it seems to be implied in the discussions.

Although I am not sure of the exact material discs are made from, I assume a type of aluminium allow. The best way to solve the heat problem (in my opinion) would be to use an industrial ceramic, something like Aluminia Oxide. The problem here is that it is very expensive and a possibility of fracturing in a crash, but the heat build up would not be an issue.

Just recently discovered your channel mate, loving the fresh take on all things cycling. More MTB content!

I think of rims as very large discs, therefore rim brakes act almost like disc brake callipers. This is all good, but given that most decent wheels are carbon, it is not the greatest material to dissipate heat. As can be seen in cars and motorcycles, say F1 racing - disc brakes clearly have advantages in heat dissipation so I think they're here to stay. Would it make sense to make the diameter even larger (as in MTB) but keep the rotor weight the same? I assume there would be favourable physics to that solution?

Since you are adept at prototyping and fixturing, i wonder if you can retrofit a disc brake calipers to use brake pads with the steel backing replaced with rare earth magnets. Could we then have a hybrid system of magnetic braking supplemented by friction braking.

Pad clearance and brake rub can be mitigated by using a fast fill master cylinder. Offset the weight by doing more,eating less and taking a good dump before a ride. Then again, are road bike disc brakes a solution looking for a problem??

So why not wireless brakes? All the tech is available (servos in the calipers, wireless coms like etap, resistance in the lever like on a PS5 controller). Solves throw issues and it's easy for them to fail safe in case of no battery, plus brakes are redundant with one on each wheel. I think bike tech is just behind the times.

Maybe they will have a system where the mechanical advantage get's higher when the pads contact the disc

can you clarify the negative reality inversion point at disc pad braking point ????