To preface this I’ve not actually run the car with this setup yet so please make your own decision if you give it a go. This was done on the gearbox from a 2006 year RX8 5 speed box so may not be applicable to others. It looks like it should work but that’s only my opinion – your mileage may vary!
So this is a bit of an odd problem which depending on the engine you’re swapping in may not be and issue but in my case I decided a V6 was a good idea and unfortunately the standard clutch slave on the RX8 gearbox is on the top offset to one side which lines up perfectly with one of the cylinder heads on my V6. Add to this if you made the better decision mentioned earlier and made the adapter thicker you may be able to avoid this as well. But since I’m largely making this up as I go along here we are!
Now I did look into whether anyone offered a concentric slave conversion for this car but it seems that was never a thing anyone did so I set to work building my own. Luckily there was one thing I knew which would help this process quite a bit – the input shaft on the gearbox is the same diameter/spline as most Ford patterns and so a Ford part should be exactly the right clearance. Add to that I’m actually using a Ford clutch if I get the depth right everything should just match up ok.
So that’s the good news, the bad news is the RX8 gearbox was never intended to be used in this way so mounting a cylinder could be an issue. Now on the RX8 there’s a flanged sleeve mounted which the original release bearing slides on the outside of. This is held on by four bolts into the back of the bellhousing and so this appeared to be essentially the only option. The tube itself can’t stay because the new concentric slave is the same ID and so clashes with it but I thought why don’t I just unbolt the tube at the flange and bolt a suitable adapter there and we’re good to go? Well it’s never that easy is it. Under that flange is a location lip which not only keeps it concentric to the gearbox input shaft but it turns out it also the height of the shoulder accurately holds the input bearing in place behind it so if I just remove that whole part the bearing will move out of position and that will very likely result in it not having enough support and rapidly removing itself from the gearbox in small pieces.
Ok so I can’t just remove the flanged tube and stick an adapter plate on but how about cutting the tube down to the flange to leave a flat face above the bearing retainer and just using some longer bolts to keep it all in place. After some very careful trimming I was left with this:
Next was picking a suitable concentric slave from the Ford range. After a bit of poking about and trying to find something I could make fit I found the Teckmarx TMCS00047 which is a 3rd party part number for a 2001-2007 Mk3 Mondeo/Cougar among others which as you might have read earlier was also available with this same V6 engine I am using and this model has a few advantages firstly that both in and out hydraulics are in one direction so if I make that line up with the original position of the clutch fork I should have easy access and also that they’re threaded the standard M10x1 brake fitting thread so I can direct connect hoses or hardline as I need to make it work. another major advantage is they’re used on loads of versions of the car so they’re widely available and very cheap at under £25 delivered. It also seems that the RX8 also has almost same clutch master cylinder bore as the Mondeo (18mm vs 19mm) which should mean pedal travel is still sensible.
Now with the clutch slave accurately 3D modelled I could measure the 4 bolt flange from the gearbox bearing retainer and by overlaying the two bolt patterns aligned on the centre of the input shaft I could design an adapter which I could index the relative rotational angle of the bolt patterns in the software until the fluid connections where in the right place for the hole in the bellhousing. The resulting first version was this :
Initially I transferred this to a bit of scrap plastic to make sure I hadn’t made any stupid mistakes before spending much more time cutting a proper steel adapter plate.
So with all that checked out and nothing apparently an issue I moved onto the steel one. I did make a mistake here if you can spot it…
To make the adapter I did the same as I had done with the plastic where I printed out the design at 100% scale, stuck it to the steel and then used a centre punch to mark the centre of all the drill positions. I admit this isn’t the most accurate method but it seems to work quite well!
This is the initial adapter, the four larger holes are M8 clearance holes. on the original RX8 flanged retainer they’re 9.4mm but I think I did them 8.5mm as that’s the drill I had available and tightening up the tolerance was probably a good thing. This actually turned out to be less of a problem in the end but that’s another story. The centre hole is larger than the original design to allow for the location feature I’d overlooked on the new slave (which is 42mm OD) to sit within it.
So it fits, I called this good progress but it should come as absolute no surprise that it wasn’t quite that simple…
As soon as I tried to add the clutch slave all the issues become apparent as it just clashed with everything. This told me that I’d need to change the adapter to countersunk bolts so the slave didn’t foul them. I could have changed the rotation but I wanted to avoid having lengths of pipe in the bell housing if I could. Plus I’d already made this steel adapter and didn’t want to do it again!
The other thing I noticed is that the cast webs off the original pivot point actually clashed with the adapter plate preventing it from quite sitting flat so I decided to remove some of the plate to correct this minor issue.
Now the adapter sits flat and at the same time I countersunk all the adapter bolt holes and replaced the bolts.
It all fits more or less where I wanted it but when I tried to bolt up the gearbox I saw another problem. With the bearing retainer plate, a sensible thickness for an adapter plate and the height of the concentric slave itself the slave was already almost fully pressed down so that which it may have worked initially as the clutch wore the slave would prevent the clutch from fully re-engaging. Clearly not ideal so we need to get more radical. First off the back of the clutch slave had a lip similar to the one on the RX8 flanged plate which initially I was just going to leave on and sit on top of the bearing retainer plate as it was slightly thicker than the adapter plate but that just wasn’t an option any more. Below you can the way the slave is totally compressed. Also note how close the hydraulic connection point is to the original pivot point casting.
This lip was adding a couple mm of stack height we needed to remove so I proceeded to carefully file the lip off down on the slave such that it would sit full within the adapter plate and ideally totally flush to the back of the plate.
On trying to refit this in its new position I realised I’d created another problem that I glossed over earlier – that I’d need to remove some of the original gearbox casting to make the new slave sit flat in the orientation I needed as the original clutch fork pivot point clashed with the location where I wanted the hydraulic connections on the new slave. The best method I found was a drill bit larger than the feature and just drill the top of it away until it clears the new slave.
Around this time I realised really I needed to remove the original flanged bearing retainer plate as it alone added about 4mm to the stack height so I engaged in the type of butchery that makes engineers wince. I took the flanged retainer and trimmed the flange off it. Yes I specifically mean that – if you cut through the bearing retainer ring it will reduce the height such that the bearing is no longer held tightly so you need to carefully trim off just the flange plate leaving a ring the right height fill the gap between the bearing and where the retaining plate face would be. because the new slave retaining face was now flush with the adapter plate this ring will now be held in place by that. Removing this plate now meant I had to drill yet more out of the pivot casting to prevent it clashing but that’s easy.
Now everything is in place and the hydraulics are accessible through the original clutch fork hole.
And all back in the car…
For anyone who may want it here’s the PDF drawing for the adapter :