Agreed, I'd always feel it when I added more than about a 3-5mm spacer. But you won't find me fitting ET45 wheels 😅

Good point, and keep a higher offset! Scrub radius definitely influences that responsiveness feeling in my experience. The M3 seems to have a little over 10mm of positive scrub radius from factory if I did my measurements right. An et35 wheel doubles scrub to ~20mm and et25 triples it! Those are big changes. An et45 17x9 is my dream wheel.

Since we’re talking about wheels/tires, running a shorter sidewall tire is the easiest way to lower the CG of the car without upsetting geometries. It’ll come with some unsightly fender gap under M3 fenders though. 245/40/17 under non-m fenders here, 1/2” lower CG than a stock M3.

I think I'd go for slightly narrower tires before stiffer springs if I felt responsiveness was lacking.

I never took that class...

I'm not saying pitch balance isn't a thing, I'm just saying you can't put on stiffer rear springs relative to the front and suddenly expect a magical ride. Some are putting a lot of focus on "flat ride" springs when the entire system needs to be considered.

You’re giving up ultimate grip on a road car by going up in rates I think most people miss this point. As long as you’re not in the bump stops, you want softer if you want grippier. You might prefer the slower cornering car that transitions faster, but that’s the trade your making, to make it clear!

Gotta say I’m surprised by your statement that pitch balance only applies to one speed. I thought we took the same ground vehicle courses and learned from the same books (and experience! I was playing with springs and roll centers on my e31 to lock these concepts with reality at the time)
The pitch balance applies at a huge range of speeds, with maximum return at a single speed. You can build a pretty simple excel model to prove this, which is what I did for my car and various spring rate combinations. Basically just build a half car model and plot the pitch angle of the car for a step change in response and you can dial in whatever critical damping decay you want. Bumps are effectively just sums of step changes so you can make the model more advanced if you’d like. I know you know all this, which is why I’m still surprised!

Also, to IamFODI above - the damper doesn’t change the spring natural frequency, so this math applies both with and without dampers. There’s a caveat here! If your springs are sufficiently stiff, and your wheelbase sufficiently long, your springs might settle so fast that pitch balance is irrelevant! This can easily be true with aero race cars, but certainly not for those of our e46s which are street driven and the ride frequencies we’re discussing generally here ~2Hz and below.

The OEMs go through all of this balancing act, but even the fast ones like modern GT Porsches with 2Hz ride rates setting Nurburgring records seem to end up with some form of pitch balance. Always down to personal preference at the end of the day, but I prefer to use the math to help me the same way big factory teams do.

I totally recognize that stock springs are much softer when compared to the rates we are discussing. When it comes to personal preference of feel and stability on the road I believe 400# is a good place to start.

Update and important points of note regarding a more comfortable Ohlins setup for the street (I'm calling it the Strohlins Kit):

First, the front spring on the E9x Ohlins RT kit is 60 n/mm (approx. 342lb) and is the same shape, length, and design as the 70 n/mm front spring on the E46M3 RT kit. I am investigating as to whether the E9x spring can be swapped onto the E46M3 strut to achieve a lower front rate without requiring different sized, aftermarket springs (and camber plates).

Second, the upper spring perch on the F80 Ohlins RT kit is made to accommodate a 65mm spring. I am investigating as to whether the F80 perch can be mounted to the E46M3 stock upper strut mount to allow us to change to aftermarket spring sizes without necessitating the addition of camber plates.

I hope to have confirmation on both points this time next week and will revert.

If you look into the origins of "flat ride", it dates back to the early 1900's when cars were quite a bit different. Nowadays, people look at a car that comes from the factory with stiffer rear spring rates and assume it's that way for some sort of performance advantage, but likely it's to account for the payload rating and still maintain a reasonable chassis attitude and handling. I don't think pickup trucks have stiff rear springs for a handling benefit. The E46 has to account for 5 passengers and a pretty large trunk full of stuff, hence the progressive spring to try to make it work in a variety of situations without looking like one of those trucks that are lifted in front and lowered in the rear

I don't buy into the concept because there is rarely a situation where you're driving in a straight line at a specific speed and hit a certain type of bump at a perpendicular angle. Bumps are random and a properly set up damper will quell oscillations quickly anyway. Also why corner balancing a street driven car is probably a waste of time for 99.9% of people.

You're exactly right, maybe there are advantages in some cases, but you can't just put stiff rear and soft front springs and expect your car to feel comfortable and handle well. It's the whole combination of ride heights, bump stops, spring rates, damper tuning, roll bars, and tires. I don't have the magic formula and there are probably multiple right answers that can work great.

There is also the personal preference aspect. I don't mind feeling bumps in the road, it lets me know what's going on and gives me a degree of confidence. What I don't like is when I feel bumps or vibrations out of sync with what I am expecting to feel. Some people prefer a magic carpet ride and want to float along with zero inputs to the driver until the suspension bottoms out. People also tolerate body roll differently, I think I like a more flat chassis from a confidence perspective even though some body roll might be faster.

I think that is where people get lost. A 300 lb spring is nearly twice as stiff as stock (155 lb/in). That's a huge increase!

Someone please correct me if I'm wrong about any of this.

AFAIK, "flat ride" ride frequencies increase the platform's inherent pitch stability when dampers aren't factored in. That means you don't need as much damping to get a certain level of pitch control, which might simplify damper tuning and possibly allow the car to have more compliance and/or quicker reactions.

IOW, it's an advantage – not a guarantee.

It's also a constraint that might require other tradeoffs, e.g. limiting front spring rates, requiring a chassis-destroyingly stiff front ARB, etc. So, right off the bat, there's room for people to disagree on the "best" setup.

Then there's damping, which is a black art; it introduces more variables and could swing things either way. A non-flat-ride car with excellent damping could be better than a flat-ride car with less-than-excellent damping.

And when you start getting into what's faster or feels better, that introduces human factors, which makes things another order of magnitude more complicated.

AFAICT, this is why most sophisticated suspension tuners treat flat ride as an advantage to be weighed against other factors. I'm pretty sure FCM is unique in prioritizing flat ride and working everything else around it.​

So, yeah, no surprise different setups work differently for different people.

FWIW

From the factory, our rears are progressive like 365lb to 685lb iirc. So perhaps that what allows stock setup to be "flat ride" through a range of road speeds?

this is why I loosely follow the principle. Most important thing, even for actual racing, is confidence and happiness with your setup, so adjust to taste imo, not the spreadsheet necessarily.

Ohlins told me that the gas pressure in their struts (front and rear) essentially adds to the effective spring rates at all four corners. The "unable to compress by hand" test was used as a primary example.

Yeah that was kinda my point…I don't see how you can achieve comfortable flatride on a street setup without going super soft on the front springs. Again, trade offs…

Just to confirm, you’re only talking about the front struts, or is it both the fronts and rears?