I think this is what makes the effect of this type of bracing so hard to put into words. I needed ample seat time in my own car after the Slon wall to really understand all the minutia associated with the change.

Best scenario I've found to highlight the improvement is a sudden and fairly large steering input. Not a jerky move, but moreso something that really loads up the outside tires quickly. Without the bracing, you can feel two very distinct "settlings" after turning the wheel. One being the suspension reacting to the change and the other being the chassis "untwisting" after the intial load. Both of these are still present with the bracing, but there's significantly less time elapsed between the two and the chassis settling is less pronounced. I think this also has the effect of making it feel like the suspension is working harder, like you mentioned, cause that's mostly what you're feeling now. Hard feeling to describe for sure. Much easier to understand in the driver's seat.

Also, I think something similar could be replicated for coupes. To make it bolt in, you could piggyback off the rear seat top latches, rear seat bottom pivot point, isofix anchors, front subframe bolts (if you have vincebar style reinforcements) and maybe even the rear window motor mount points. Nutserts make it not a bolt in mod, but allow for easy pick up points along the side of the opening. Now I kinda wish I hadn't bonded the Slon wall into my car, so that I could design something similar to yours, but for coupes...

Attaching a pic of the coupe opening for inspiration

Good point about using nutserts - that would make this a pretty easy installation with some countersunk fasteners if need be. It would need more bolt points because nutserts don’t have a lot of bearing area and can more easily put sheet metal in bending (=fatigue) but that’s not an issue if you’ve already accepted drilling holes. So this is definitely doable for a coupe. Well, I can always scan a car for anyone who wants a starting point

​Thanks! Yeah it's a very hard feeling to describe in words. Sort of like you can really feel the extra stiffness in the little ripple movements of the rear suspension now. This could honestly be the rear shock mounts displacing a bit before the dampers start doing their job, but it's not something you could feel before. Just lots more 'precise' feeling. All good changes. Did you notice any of this 'ripple' sort of behavior?

To make it bolt in, you could piggyback off the rear seat top latches, rear seat bottom pivot point, isofix anchors, front subframe bolts (if you have vincebar style reinforcements) and maybe even the rear window motor mount points.

I'm really the wrong sort of engineer for this stuff, but I would have thought that if you tied in to the front subframe bolts it would render the need to tie into the ISOfix points unnecessary right? I believe that the ISOFix points are attached to only the top layer of sheet metal, so would have thought that the subframe points would be more effective for this? Or am I looking at this the wrong way?

I'm not entirely sure what the isofix points attach to, but they need to be fairly strong, so I would assume it's more than just the top layer of sheet metal.

I was mostly just listing out all the options I could think of . Packaging is likely what would drive the choice of one over the other in the end.

I agree - it's a really hard feeling to describe. I think Heinz articulated it well - there's much less of the feeling of the chassis loading up before the suspension starts working. The brace I'm running ties the RACP points directly into the rear shock mounts, so what I've noticed is that there's basically no give before you feel the suspension working. So possibly it feels slightly different to what you're feeling given the RSMs are fairly immovable with my setup? Definitely need seat time to notice the full effect. I could tell when I first drove it that it had made a difference, but it becomes more and more apparent the more you drive. I thought I'd finally got used to it and then had to go over a speed bump on an angle (I usually take them head on for less jostling around) the other day and couldn't believe how stiff the chassis was.

I would venture to say that mounting to the RSM is no better (probably worse?) than mounting to the pickup points that I did for torsional rigidity, so we’re likely feeling the same thing.

Ah sorry if I gave the wrong impression. I completely agree that bracing to the RSMs as I have with the RACP brace is almost certainly worse than the approach you've taken as far as torsional rigidity goes. The primary purpose for the brace in my case was because I want to reinforce the RACP points. The improvement to torsional rigidity is a very happy bonus, but I would have definitely thought there's more still on the table in comparison to what you've done (which is why I'm also interested in Heinz's suggestion). All I meant to say was that in my case the RSMs are "locked" in place by the brace in relation to the RACP points, so I was wondering whether what you mentioned about the RSMs possibly moving a little as they load/unload would be a little different in my case compared to your case where the RSMs aren't tied in to your brace right?

Interesting re the wind up loads. That makes sense and would explain the difference we're feeling before/after.