The HIDDEN problem you should know about Sim Pedals

Since so many people seem to have misunderstood I’ll try to help. Steliyan is referring to the fact that when rubber is put under load will initially resist more and then relax. This is why the input drops from 70% to 60% without his foot moving or the force he’s putting in changing. He isn’t referring to elastomer blow out or age related rubber degradation. It’s a fundamental flaw in the decision of sim pedal manufacturers to place elastomers between the input force and the loadcell censor. The issue can only be corrected by using metal instead of rubber as this is the only way to avoid the inherent molecular problem.

I am an engineer and I work with elastomers. I will try to break down the phenomenon being described a little more completely than I have seen so far, although there are already some good explanations.
Elastomers are viscoelastic. This means that they can behave like a viscous material (like honey) such that when you apply a load to it it will continue to deform slowly after the initial deflection. When the load is removed the elastomer will elastically recover close to it's original position and for the most part be undamaged.
There are two ways to measure viscoelasticity. The first is creep. You load the elastomer using a constant load (weights are good). The elastomer will have an immediate deflection, then over time it will deflect more or creep. You apply constant load and the deflection slowly increases.
The second method is called stress relaxation. In this method the elastomer is deformed to a specified position and then held there. The load in the elastomer is measured. Overtime the material relaxes and the load decreases.
When talking about how this affects muscle memory it really is dependant on the type of muscle memory you have. If your muscle memory is positional, meaning you press the brake to a specific position and hold it there the elastomer will experience stress relaxation and the load on the load cell and the load on your foot will decrease after the initial brake application.
If your muscle memory is load based, meaning you have a memory of how much force you need to press the pedal, then the elastomer will experience creep, where after the initial pedal press, the pedal will begin to deflect further during the braking zone. But the load on the load cell and on your foot have not changed.

Materials engineer here. You're not an engineer, but you definitely understand the basic concepts and are able to explain them well :) Good content! PS. I'm using springs too ;)

Good video! From a technical perspective you’re absolutely right and this is one of the reasons I generally opt for a spring and stiff elastomer combination on most pedals. The spring brings me to my threshold point and the elastomer provides the necessary feel to modulate around it.
One point to consider though, how often are you actually trying to hold the brake at a fixed position? My personal take on this is that as long as the response is consistent, you will establish appropriate trail braking muscle memory that accounts for this relaxation, just as a real life racing driver will account for g-force, brake fade, ballooning brake lines, pad wear, etc.
Of course it could then be argued that in a sim we don’t have the seat of the pants feel to assist us, but again we are talking about a consistent relaxation of the elastomer here, not something that is changing throughout the course of a race.
I can say from my personal experience using a huge variety of different types of pedals, I’m no faster on pedals that use springs (VRS for example) or even pedals that use a totally different design like the SC Active Pedals. As long as I have a consistent and clearly defined threshold point that I can hit consistently and modulate around, I’m fine.
One very interesting design I tested was the Sim Coaches pedals a few years ago. They used concave metal washers that acted like a spring when pushed together which gave a very consistent feel and a huge range of adjustability.

Really nice video. I have made the same observation on my dutch pedal set. A solution to the non-linearity (between pedal travel and pedal force) with springs is the one used in the VRS pedals, with a rotating cam construction. I tried those pedals 4 years ago on the sim racing expo and they were my highlight of the show, they felt incredibly precise. There is one other aspect to consider though, and maybe you can dig into that a little: How do the hydraulic systems in real race cars behave? From my memory, these brake pedals get stiffer the faster you move the pedal (has to do with the hydraulic liquid moving through holes separating two chambers). This damping effect can obviously be felt and the elastomer brakes on sim racing pedals may be immitating this effect quite well, much better than any linear spring ever could. Therefore my question: Isn't this behavior of the elastomers very comparable to the behavior of hydraulic systems in real life race cars, and aren't we thus facing a choice between realism and maximum precision / performance? And: Is the VRS design with a spring, rotating cam, and additional adjustable hydraulic dampers potentially the perfect construction, aside from active pedals? 🙂

Great video and thank you for breaking that down. It makes sense that over time, with heat, etc. the rubber will begin to break down and not have the same resistance. I’ve experienced this myself with my DIY mods. Working with springs alone does seem to be the best way as they are designed to have that constant movement with minimal degradation if you will. Another like from me for sure. Thank you again!

This phenomenon has been well documented in sim pedals for years. In terms of actual difference when racing im sceptical since its rare that you ever hold a constant pressure for very long at all.

I noticed this deficiency with the load cell after coming from a cheap set of Logitech pedals way back. I think those used POT's but I noticed the braking points were more stable with less variance as I held the pedal in a constant state of pressure/travel. With that being said I was more accurate with my braking once I switched to load cell because of the feel but I never forgot this fact through my sim racing years.
Recently I have applied an inverse exponential curve to my braking on my sprint pedals and it feels much nicer than the linear behavior that is stock in the software. I think is due to the high end of the curve being slightly saturated that doesn't allow for as much change during the final compression stages at 80% brake. After watching your video this makes sense because as we compress the elastomers they exhibit a non linear behavior at the extremes. With my curve the mechnical properties of the eslastomers are filtered at the extreme compression ranges.
Could you do a video on this topic and potentially test? I think that you will find this will be a better way to solve the problem beyond changing the elastomers for springs. Let me know what you think. I am an electrical engineer and not mechanical but after reading the documentation in your video description it makes sense to me.

Very interesting & thought provoking video, RBM. I've always (personally) wondered if there is another side to this - which is driving "by habit". To explain, I used to get together with my brother to race once a month at our homes, selecting a new car & track, and Hotlap it till the fastest time won at the end of the day. But one thing that hit me hard, was that if it was a track I already knew. I noticed that I especially braked always at the same place, and say ALWAYS changed down the gears once or twice automatically which might have slowed me down too much, but did it just out of sheer habit. It was only when it was my turn to watch my brother, that I was able to see if he was able to take corner ABC for example without lifting off / where I would brake at a certain point JUST OUT OF HABIT or MUSCLE MEMORY???
So it became a ritual where I watched him, and at times, he watched where I was faster (using my slow in, fast out technique) that we BOTH became faster, when we threw out our own ways of driving any track due to sheer habit. So I've always wondered if that is a (kind of?) muscle memory also??? I hope that made sense to you RBM, as I tend to waffle on a bit too much, hahaha.

Man. I have an SRP Pedals. They use a completely different pneumatic system and it feels amazing. My driving went to the next level with those pedals.
I’ve been trying to create a video for them but I have a very busy life. I was hoping someone like yourself can review their pedals but unfortunately the company is too small to provide review samples to reviewers. Dan Suzuki made a great video about them

good break down and i hope the companies are watching this. ive noticed with my CSv3 every 6 months im adjust the pedal tensioner to make it stiffer and this is with the brake kit.

Great content as allways, any tips to be faster is very much appreciated .

I've modded my Ultimate-brake with a quite beefy pressure spring about two years ago and tried elastomers in between, but kept the spring-mod, which works great for my brake-pressure (50-60 kg). Now it's one elastomer and two springs including the default small one and I've added a bump-stop inside. I've also tried to replace the elastomer with a plastic one, but the elastomer adds a little more brake-feel to it and the Heusinkveld's are much better than the average ones. Elastomers are widely used for brake-pedals because they feel more like a hydraulic brake compare to a spring in the first place while being cheaper and less prone to leak than hydraulic brakes.

Thanks mate for your time making this informative video👍

Thanks ! That explains in great details the point we discussed few weeks ago !
Coïncidence ?...
Today, 5 years after buying it, I remembered that my T3PA Pro was provided with an optional accessory : a bracket with a choice of a spring or rubber that fits under the brake pedal !
I just chose the rubber since the spring doesn't feel very stiff between simple fingers. Now, I need to build that famous muscle memory ! Until I eventually spend money on a Simagic P2000 or P1000, a Sim-Lab XP1, or another brand ...

This is so true, im really looking forward to buy the P1000 since you made the review, they would be my first hydraulic pedals. Great video as always!!

hope your doing well and awesome video as always deff ordering a few elastomers and springs 2 keep for spares

Hey buddy, it's been a while 😀 This is a very interesting subject, thanks for the information. I use Fanatec V3 pedals with the elastomer and damper kit upgrade on my brake pedal so I might not be able to replace the elastomers with springs due to their size and location. But this makes so much sense as I usually have to make slight adjustments to the brake pedal every couple of months or so to add some more pre-load to the elastomer. Now thinking about it, I guess that having the elastomers so snuggly fit inside the metal tube may prevent it from expanding past a certain amount. 🤔

Manufacturers are going to need to implement a software & hardware solution for this. In simple terms, monitor pedal movement with a sensor and maintain input level via software if pedal hasn't moved. Ive noticed this issue too but thought it was just me and my inconsitent foot! Thanks for making a video on it.

Sound like all this time we have been trail braking without realising😂

I work at a spring manufacturer and test springs every day. Unless you take them to solid height ("set" them) they will always return the same force at a given length. I've always wondered why so many pedals utilize elastomers instead of a spring spec'd out for the correct rates. I guess cost is a concern, but honestly, when you are talking about the steep costs of some pedal sets I think elastomers are just a strange decision in perceived top shelf gear.

Super cool! I really needed you to keep this a secret since your last video; now any competitive advantage I might go after is gone! lol. But in seriousness, have you stuck with the load cell after getting the hydraulic kit or are you using the angle sensor on your P1000's? The difference between the load cell and the Hall sensor response can probably be matched by adjusting the brake curve on one of them too, right (in case the load cell's response is preferrable)? Thanks again. Always a pleasure to watch these videos.

I always wondered why that always happened to me when I felt like I was holding it at the same position and pressure. Thanks so much for the fantastic scientific explanation! You did a great job of explaining it! I’m searching for springs to replace my elastomers already lol!

Finally someone raised this issue. And I actually did just that, I got Simforge mk1 pedals, which are amazing for the price, and asked for a better set of springs and elastomers - and the manufacturer listened!

We saw in the video that you are using 2 different Springs for the brake with the Simagic P1000. What kind of springs are they and where can we buy them?
Awesome video! Cheers!

Thank you very much! I thought it was my own strength failing, being tired after initial brake pressure, and that I need to "focus" more in order to brake better. Now I could switch to the position sensor for the first 80% and I would not feel bad about it.

biggest point most ppl dont understand muscle memory is automated movement and not pressure .
i always configure my brake so that i´m at about 80% with only spring compression and the last few % goes into the elastomeres . but thats not muscle memory anymore thats only for more realistic feeling

You might not have an engineering qualification, but are most definitely an engineer! Nice video.

Your videos are the best

This sounds very curious. Will have to take a look i'm on heusinkveld sprints but always had trouble holding that peak pressure

I always preferred mixing elastomers with spring.... now I understand why. But then you try the simucube pedal, you adjust the muscular hard point to match around 80%... and boum everything become easy, consistent and brings so much confidence.

Cracking video mate, I thought I was the only one scrathing their head over the way elastomers behaved under contant compression. When I built my DIY pedals I ended up mixing springs and elastomers to get the best of both worlds, preload spring at the top, elastomers in the middle and a softer spring at the bottom, you get a nice progressive repsonse from the brakes but the two spings seem to help compensate for the spiking you get during and holding the brake.

I had to watch this twice as I kept getting distracted by the simulation graphics and the rig setup - incredible. Great information!

Great explanation.

This property of elastomers (hysteresis) is an essential ingredient and the reason why tyres generate grip. The delay in the return of the rubber to its original state due to a damping coefficient in the material. Optimal temperature window yields the most favourable damping coefficient of the elastomer and thus peak grip.

Do u ever heared about VRS DFP Pro pedals or Simgrade VX Pro? Both uses spring loaded brake pedal and feels amazing.
When I switched from modded Clubsport v1 pedals to my DIY stuff, I tried to use springs because I seen problem u mentioned in my CSPv1s.
Now I use 2x 30mm coil linear springs with ~40% compression. I tried to use 2 or 3 different springs but it I hated that braking in stages feel. I would like to have smooth progression but I don't think it's possible in HE like pedals without mechanics like u can find in VRS DFP pedals.
I feel pretty confident with linear spring brake. It's hard enought to not press 100% in panic situation.

To be honest I never thought about this but now as you mention it, it's logical and fitting with my physical understanding about rubber. I think this is a very important poit, when it comes to optimum braking feeling. Thank you very much Stelian to talk about this problem of elastomer behavior. Sorry for my bad English🙈😅

Great Video as always mate , another topic , could you provide us your graphic settings for ACC it looks so much better , my settings are on epic (also Triple 1440p) but somehow it doesn't look good as your's, cheers 👍

I 100% agree with you on the rubber performance. I created the perfect setup on rubbers, but noticed a tinny gap down/dead zone after 150 laps around the Nurburgring.
Can't wait to throw my hardest spring on the bottom of the healthy rubbers with some fat ass spacers in between. That combo always worked for me, but we like to experiment and change, even when we know it's a temporary thing and that's what makes sim racing one of the most uplifting experiences on earth

One thing that I have always wondered, is how people swear that hydraulic brake pedals are much better than regular load cell brakes.
As I see it, the hydraulic brakes still compresses rubber, just like load cell brakes. You just move the rubber away from the pedal, but the feel/effect should remain the same.
The argument I hear people say about hydraulics, is that a real car has hydraulic in the brake system and therefore it is better/more realistic.
Well, the hydraulic on a car, and on the sim brake pedal, does not compress. The compressing feeling you get in a real car is 90% vacuum brake booster and 10% pads to disc travel and maybe a very small compression here as well.
IMO if anyone wants to simulate a proper brake feeling, air/vacuum system is needed or an active pedal.

Awesome videos! Thanks so much always for your great info. I have the Heusinkveld Ultimate+ pedals, but still find the brake pedal to have an “unnatural feel”. Which pedals do you recommend to get as of right now? (Around $1500 budget). The P1000’s? Thanks if you can respond

I think the problem won't be so bad, if the pedal manufacturers, added a tiny bass shaker with their pedals that vibrate at high frequency so you can feel the input and release. Another way is, adding auditory queues from squeeky brake pads and tire chirps via software.

Steliyan, my man is a delivery guy and a mad scientist at the same time. When are you submitting your PhD thesis on sim racing? 😂

The main issue I have with pretty much every loadcell pedal set with rubbers (brake pedals mostly) is that if you want more force (applying more force to the pedal), this almost always comes at the cost of less pedal travel. I personally like a long pedal travel but with a decent amount of force with that and the Simucube Active pedal allows me to achieve this. I don't think I can go back to a traditional rubber brake pedal ever again.

I use a TLCM, I used the softest springs so that it just goes back to the zero pedal stroke, and washers so that it has direct pressure on the load cell once you hit the preferred stroke in relation to the throttle. This is a very consistent fix. I then tweak the gamma and and the stroke percentage to make the brake feel softer or harder.

Very cool. Thanks for making this clear and sharing! I was not aware of this - I have not gotten into expensive pedals yet, but now I have a better understanding for the future

Subbed, I love gaining new technical insights about my hobby, and this was presented very well! It's hard to argue with those load cell readouts. I guess I'll hold off on my load cell mod until I have metal springs.

I noticed my trail braking wasn't as strong in the later parts of 45 minute races and my lap times were dropping off, I had the load cell too strong at 65kg on the sprint pedals ... I feel like I physically fatigue as an endurance race goes on so iv lowered the pressure to 45kg and steepened the angle of my pedals which has helped keep the pressure on the brake for endurance racing when I'm getting fatigued and iv found in the later stages of the race im getting the car to turn in as sharp as the start.. thanks for making this content to help us think about how to become faster drivers. My situation was slightly different than what you explained in the video but your video made me think about my braking 👍

Just wondering, can you fit that cube controls wheel to a Simagic alpha mini wheelbase?

Great video. What are your thoughts on the Sim Magic P1000 pedals compared to the P2000 pedals. Is the price difference worth it

Good video and an interesting concept I hadn’t thought of before.
Can anyone here recommend a good set of springs for the Fanatec CSL Elite V2 pedals?

very intersting !
I've got the p1000 set to angle to get the more stable feeling what would bring me the hydrolic kit based on elastomer too ?

Using hall sensor pedals as my first set. After seeing this and being told to go to load cells as an upgrade I am more than happy to stick with my current hall sensor pedals. Muscle memory wins in both cases. Great video and thanks for sharing.

I was wondering if it was me not keeping the constant pressure. I press 80 and it hold for a half second then drops off about 15%. i mean I love my H's but I think i need to look into springs. Do you have a supplier you deal with for springs?

Theory tested and confirmed on Fanatec CSL elite V2 pedals. With stock elastomers (blue preload spring, 65/75/85 elastomer stack) force drops from ~80% to ~70% over a couple sec. Using a 25mm diameter 35mm long blue die spring to replace the two softer elastomers, leaving the original preload spring/elastomer and one hard 85 shore elastomer, now input only drops by 1-2%.
It’s a little too much travel for my liking so I’ll be messing around with different springs to get the feel I want but the theory is there. Way less force drop than before but still a tiny bit due to still using some elastomers in the stack. I’ll keep updating with what combination I end up being happy with.

I think the main issue with people thinking hall sensors are not as good as loadcells is all to do with the cheap pedals that used to use them.
Those old pedals only measured distance but the pedals were always super light and not enough travel.
Having a good set like the p1000i I have the hall sensor is perfect. As Stiliyan says the feel under foot is the same as when using a loadcell. So it was never about the hall sensor being bad its was about the feel but people believed the hype and everyone ran with it "loadcell is best" but it's not that cut and dry.

Everything I see this rig I'm amazed. You done such a good job

I have been talking about this since I changed from elastomers to spring pedals on my live streams. Nice explanation here, kudos meng🤘

So Thrustmaster choose to go with springs in T-LCM was not cost saving, or design flaw. Interesting. Good that this video came out, just at the time when I want to buy set of elastomers for my pedals;)

i replaced the rubber with hardest spring and two springs are working so much better! thanks buddy! 🎉

Hello man, i love your video but i want the video SETUP please, your setup is incredible and thanks you for your personality

Thanks for that technical insight. Super interesting topic, imo. 💪 question: how often do you clean your installed hardware, like pedals, wheel base or rig frame? Have a good day off, Chepi! 👋

Fanatec V3s elastomers sit in a metal tube housing stopping them from bulging. That should help negate this effect. I'd imagine if someone started offering metal housings for their pedal's elastomers this effect could be largely reduced. As for it helping people become faster, I'm not convinced. Most people already have their pedal's characteristics baked into their subconscious and are compensating for this effect. But, then again, sim racers are like hypochondriacs. Instead of their bodies it's their rigs that they believe there's always something about it that needs to be cured to make them faster. Just remember, there's always some kid on a G29 in a lawn chair in front of a TV hanging above a fireplace running faster laps than you.

Another reason why I chose the VRS pedals. No elastomers no problems.

For those who are in the market for a new set of pedals, are we going VRS, Simgrade VX-Pro, P1000 using hall sensor....are there other cheaper options that use either springs or a hall sensor/load cell? Thanks a lot!

Bought tlcm's while ago. I hated felling of bottoming springs even with both reds you can easily press the brake pedal to the end and feel sudden stop. My experiments with rubber elastomers got me the right feeling, of course the travel of the pedal has shortened but it felt just like real brake, press it hard and you don't feel sudden end of travel but it is almost imposiible to push more. I immediately noticed that input values dropped after moment when pedal is pressed but i thought it is because my lack of training. After this video i'm giving springs a second chance.

Agree. I had to use HE software which I was against to adjust my consistency. I changed from 2nd to the hardest to the softest which was better but still not giving me the results. It was me using software to make the experience more consistent. I would love to try the angle sensor of the Simagic P1000.

I am not sure if the problem are the springs or the elastomeres. I build DIY loadcell pedals and tried both. the Arduino code had a multiplier for the pressure to use the whole range of the 200kg load cell. after it I bought the VRS pedals and both have the problem on brake and throttle that the initial pressure is always 5-10% higher then the real pressure. it always falls back by this amount after ~0.5sec. the problem that I see there is the risk of locking up tires or spin because you always aplly more pressure then you want.

Are there any ideas about the Fanatec CSP v3 and their behavior with the Performance Tuning Kit Elastomers ELADUR? Do they decrease in resistance too? Are there custom springs available as replacement? Thx!

Great video! Very good explained, too. Thx ❤

❤the best

Have you tested the springs you showed in the video?

Very good video as always. Have you tested the Cube Controls pedals with the cups from the performance kit? Do the cups eliminate the problem or reduce it or is there no difference to not using cups? Thanks in advance.

Timely video, I was really excited to get pedals where I could mix and match to get the pedal to feel how I wanted. No matter how many elastomers I tried, it always didn't feel right to me as I could feel them resist then relax, which felt horrible to me. I didn't want to sim a car with balloons for brake lines or zero movement with rock hard elastomers, so ended up using a range of springs. Thought I was crazy not liking elastomers.

In a nutshell: it is not about having a load cell as much as progressive resistance, however it may be provided, repeatability in the way it is measured, and stability in the reading. Elastomers and hal effect sensor could do as good of a job as springs and load cell, or pneumatic and pressure reading... But elastomers and load cells seem to be a bad combination.

Very interesting buddy. I have a question about it. Is a system like the BJ hydraulic pedals, where the sensor is positioned well above the elastomer, more protected from this kind of problems compared to the system of the Heusinkveld Ultimate + pedals, where the load cell reads the elastomer directly? (I hope I make sense...)

Aha, but what if, you already new this phenomenon or mechanical deficiency existed, you can use it to your advantage, as in automatic trail braking. I use Simforge pedals and oh yeah, you could see it happening on their calibration software! I recently purchased and received, their new Elastomer & Spring upgrade, which lesson the effect using the over sized (larger diameter) elastomers, in place of the standard size. Now I'v a more positive brake feel.
I do like what the P1000 has with both, position & elastomers working together, but won't move to those, until the software is 100% sorted, across the board. As always great content!

So regarding pedals, would the VRS Driving Force Pro Pedals be a good recommendation on spring pedals.
ATM I've been thinking of the HE Sprints or the VRS ones... to upgrade from the V3s.

Awesome video man! Hope we can get more manufacturer's doing the right thing and over the next couple years switching over to springs :D

Have you found a size that works and tried using springs in the p1000?

Thank you for offering the solution to this "problem" in the video. However, I do feel like you're exaggerating a little bit, with costing "a lot of time". In most cases, you would actually prefer the progressive slight release of the brakes as you bleed off, which would make you faster. And regarding realism, it might not be 100% realistic, but then again, there are also no external forces such as bumps on the road, affecting your leg/foot on the brake pedal as your whole body is shaking and the G forces under braking in the real car. So this minimal change of brake power under the "same" input and the irregularity is so minor that I don't think it should be stated as a shortcoming of the pedals, especially since there are way more issues in the software of the sims we love. With that being said, I respect your opinion and love your reviews. :)

Could engineers somehow make progressive springs to get best from both worlds? As i like short travel on my brake, i ve always liked (hard) elastomers more than springs, because (hard) elastomers provide progressive, almost hydralic feeling. Hard springs are too hard to "tap" the brakes, there is kinda too much preload on them and medium/soft springs have too much throw to full brake for my taste.

I frequently have to provide maintenance to my breaking pedal due to differences presented because of continuous usage of the elastomers, eventually if one uses the set of pedals for hundreds or thousands of hours you have to replace them elastomers.

Fanatecs V3 performance kit doesn’t drop like these. Is it because Fanatecs elastomer is in a tube?

Is hydraulic kit on p1000 the best elastomer + load cell combination for accuracy and repeatability? Or still a bit better to use hall sensor?

Very good video and explanation 👍🏻 Thank you.

Pedal manufacturers insert these rubbers to appease drivers to match their sim pedals to the car they drive in real life. In go-karts and F1 cars, there is only the slight flex of the pedal itself, so the pedal travel is only millimeters. It's more like trying to push a brick. I have a Ricmotech load cell conversion for my old Logitech G29 brake pedal, which has zero rubbers. It feels just like the brake pedal in a go-kart, so muscle memory is a lot easier, as it is just pressure applied, with hardly any actual brake travel. I wouldn't swap my pedals for anything else on the market, until someone makes pedals without these artificial brake travel rubbers. A lot of sim racers would benefit from a try-out in a real race car... they would be shocked how hard the brake pedal feels.

I'm not a material engineer but I did work with elastomer for aeronautics as a quality and lab testing manager.
I'm surprised no one have talked of the issue you see with the compound.
1-There is a mix of different material to make a compound, it depends heavily of what your are trying to achieve
2-You need to bake the elastomer after molding it. This will help release gases, and also aging the elastomer faster so it will be more stable during it span life. The oven curves are very precise depending of the compound. These curves have steps with duration and slope to reach T°.
All of this help your compound to have a very repeatable behavior (what I was checking with the lab tests).
Hope this will helps the debate. 😅

I remember I've started seeing some manufacturers start to make more medium to higher end pedals with stronger springs than usual and some people were praising many pedals using springs wich I found quite surprising but I tought, if it works, it works!
I used to be very curious about upgrading from the fanatec V3s to the Simagic pedals with the motors but I'm afraid they will shut down support really quick for them like they did for the Simagic M10.

Mate i'm so exited ! This week i'm gettin paid and i will purshace my P1000 or P2000 idk still but anyway it's time let's gooooo !

Perhaps if more people would have listened in school it wouldn't need further explanation, so here is my 2p worth. Rubber deforms when compressed. Over time that deformation changes. The rubber becomes harder or softer depending on the compound thereby reducing the consistency of the feel and the behaviour of the brake pedal which absolutely will reduce your brake performance.
The simplest solution is to invest in some metal springs, about £5 per spring off ebay. This will increase the predictability of the braking experience and enable more of the muscle memory to be consistent over time.
Oh, and one final thing. The 'Race Beyond Matter' explanation is spot on and they have a new subscriber.

So what you're saying is we all need active pedals! Fantastic! I just need them to release a more affordable version. :3

I never thought of that. Hmmm... NGASA won't have a fix for that. So it's going to an adventure to find the right spring, length, hardness of the spring and big/small enough to fit in the sensor housing. Thank you for the new project. Excellent video as always.

I've always been worried about this with elastomers, but since they're so commonly used and no one talked about it, I figured I was overthinking things and that it wasn't making a meaningful difference... it's interesting to find out my gut feeling was right all along. I am using a spring-based load cell set though, so I have not experienced braking with elastomers.

Do hydraulic pedals not use elastomers? Wondering if that’s a solution but I’ve never owned any.

Great vid thx. Now I know why my G27 pedals are wonkey during those hard sessions!

Hello buddy, I think you are totally right. I put your setup with the tree métal gold spacers and the 6 red elastomers.
And at first i felt very inconfortable and thought it was too stiff, si I went to softer and run like that about a week.
Then Yesterday go black on the full gold and red and its stiif ok, but i Can apply force and i realize that was so much better on low brakes. I mean with tiny pressure or trail braking, that is so responsive 😮
I was on point to sell them, but i am reconsidering my opinion, and man !!! That inverted setup is so much confortable ❤❤

This drop off really messes up trail braking on my CSL-ELITE V1 pedals. I have to get a better set of pedals anyways, but I do want to swap out the elastomers with very stiff springs, but I cannot find springs that are as stiff as the 85 shore elastomers.

Thanks for the efforts. Great explanation and I learned a lot. A few points though: Before that, I sometimes cannot sound nice although I want to, sorry in adcance:
1- The "relaxation" only affects the strength measured, but NOT THE STRENGTH FELT IN YOUR LEG? interesting. You confirmed that the relaxation does NOT affect the position of the pedal due to becoming softer (only repeating this info to tell that I hear what you said).
2- The issue is significant for you sim racers. I did my calculations, you stay on the brakes for hundreds of meters (remember 150-100-50 marks) which means you use the brake for seconds and regardless of trail braking or anything else in the whole world, you simply need an authentic signal that conveys your input with fidelity in order to control the car.
3- This is not an issue for me, as I am so different from you guys (but this is a totally different topic). I am a realism and immersion geek. I do not do setup tricks or basically anything that I don't do in real life. You all think you are Max Verstappen. I am a simple guy who drive sh* boxes on race tracks. I humbly consider myself as a hard core car enthusiast and a skilled precise driver, yet, never have I ever in real life reached this razor edge laser sharp braking. I do not even understand why the car sometimes doesn't stop in real life because it can be dirt, oil, wind, pads temperature, tiny pump, slight difference in platform stabilization, ABS activation, oil pipe elasticity or simply me thinking I braked in the same point while not (in short: real life is not what you think, you do not fight same as hard and you do not search for a tenth of a second). I use sims to race road cars, cruise, drift, truck, fly...etc I don't want to be super fast in iRacing like you and then not able to drive any other sim or in real life. In other words, you guys are much better and faster than me, but let's move to some more interesting points (to you), hopefully. I digress.
4- I'll discuss the solutions you mentioned and some I suggest (not really, just food for thoughts). One of your suggestions was springs because they're stable which is a great idea, but I WOULDN'T choose it, simply because the progressive feel in the elastonomer feels more realistic to me which is the point of sim racing. Another suggestion of yours was hall sensor (or angle sensor). THIS POINT IS ABOUT TO MAKE ME CRAZY. My brain can't just decide. Let me start from the start, in real life, the pressure ( more accurately the force) of our foot makes the rotors pads push proportionately. So a load cell is realistic and fair because it makes the sim accurately deliver our input to the brakes, but given the issue you raised, let's discuss angle sensors; after learning what you explained about the elastonomer being progressive (increasing, none linear) in resistance, still measuring the angle can be 100% realistic ONLY IF either the brake is set up exactly like the real car (active pedals) or if the software had a very accurate algorithm to convert the pedal distance to force (again because the relationship is not linear and it's stiffer and harder to move the more the pedal is depressed). This is so convoluted and so hard for me to think about.
5- Finally, since you are the only sim racing TH-camr to do the effort of thinking, experimenting and teaching us (I'm serious, other TH-camrs mostly want to be little boys playing games while people donate to them), I hope you continue your tests and come with a part 2 video where you explain to us why are spacers and other accessories useful to help this inherit physical features in the elastonomers??? Do full hydraulic pedals have this issue (I think the more expensive ones measure the brake fluid pressure or movement or something). You mentioned in a comment that hydraulic accessories help calm down the elastonomer but does this mean slowing it down hence making the whole brake less responsive for sim racing? Do pneumatic have a similar issue?
6- Thanks. Sorry for the long text. You don't need to read it, it was crazy, lol.

So are you saying we should get rid of our load cell pedals and revert back to using our entry level hal effect sensor pedals?
Or stick with springs that give inferior feeling with our load cells?
I was about to purchase elastomers for my LC