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Lotus Europa Forums => Technical Articles and DIY tools and tips => Topic started by: Grumblebuns on Sunday,December 25, 2016, 08:55:03 AM

Title: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: Grumblebuns on Sunday,December 25, 2016, 08:55:03 AM
 Installing a Spitfire Master Cylinder on a Federal Europa

This article started out as a one page basic nuts and bolts installation of a Spitfire master cylinder to the Europa, a simple bolt on , hook up, bleed and go description. My curiosity on changes to braking pressures and forces with the Spitfire installation resulted in the addition of the calculations and spreadsheet.

This article covers the Spitfire master cylinder conversion for both the S2 and the TC(S) Europa.

The Spitfire MC

Using the Moss Motors catalog as reference, there were two types of master cylinders used on the Spitfires, the large cap reservoir MC used on 1968 through 1975 Mk 3/4, &1500 Spitfires and the small cap reservoir MCs, used on 1976 through 1980 Spitfire 1500s. Both large and small cap MCs are dual circuit with outlet ports located on the left side of the MC. The significant difference between the two is the bore size. The large cap MC has a 0.875” bore and the small cap has a 0.70” bore. For the S2s and
unboosted TCs, the small cap reservoir MC is the one we are interested in (Pics 1).

One issue to be aware of with the Spitfire MC is how the home or return position of the primary piston inside the bore is set. With the stock Europa MC, the primary piston is retained inside the bore by the tipping valve in the full return position and  the end of the primary piston is flush with the end of the bore. With the Spitfire MC, the primary piston is not retained in any way inside the bore. When the retaining clip and washer are removed, the primary piston will pop out. The return position is determined by the spring pressure of the primary piston pressing against the slightly longer head of the  Spitfire push rod  (Pic 2). Because the push rod controls the return position of the primary piston push rod,  I believe it is imperative if not critical that the Spitfire push rod be used with this conversion even though the Europa S2 push rod will fit in the Spitfire MC.

The Spitfire MC reservoir is integral with the body and uses rubber grommets to press fit the nipples into the bore which should allow easy mounting of a remote reservoir. On the Spitfires, the master cylinder body is mounted at an angle so the reservoir is horizontal (Pics 3). When fitted to the Europa with it's horizontally mounted MC body,  the Spitfire MC reservoir will have a significant downward slope reducing total reservoir fluid capacity some what, more for the large cap MC than for the small cap MC.

The final issue for the Spitfire MC is the differences in the threads used in the outlet ports between the original stock Spitfire MC and the after market ones. Original OEM Spitfire MCs have 3/8-24 threads on both ports.  The two aftermarket master cylinders I purchased, the TRW and the economy MC, both have metric M10x1.0 threads. It’s unfortunate but it is possible to mistakenly thread 3/8-24 fittings into a M10x1.0  ports. 


 
 The Spitfire MC and the S2   

Converting the S2 to the Spitfire MC is just a matter of swapping the complete stock S2 master cylinder  with the entire Spitfire master cylinder assembly and push rod . With the same mounting flange configuration as the original Girling unit, the Spitfire MC will bolt up directly to the S2 MC bracket (Pic 4). With the slightly wider clevis used in some of the after market Spitfire MCs, a slightly longer clevis pin may be required for the conversion.

The one feature of the Spitfire MC keeping this conversion from becoming a true bolt on is the location of the outlet ports. The left facing ports of the Spitfire MC will either require jumpers or approximately two feet of new brake lines run from the MC to the junction unions on the front bulkhead of the S2.
Details of the jumpers, if used, will be covered in the TC(S) section which also faces the same issue. With the relatively short run, the fewer  number of overall fittings and the same amount of labor needed to fabricate new brake lines vs fabricating jumpers, it makes sense to just fabricate new lines to the original stock unions (Pic 5).
 


The Spitfire MC and the TC(S)


As with the S2, the Spitfire MC will bolt directly up to the TC(S) with no modifications. However in addition to the opposite facing outlet ports, the TC(S) has one other complication to contend with. The TC(S) brake rod assembly does not use a clevis at the master cylinder end .  The simplest solution is to cut off the welded clevis and thread the cutoff end of the Spitfire push rod. That end is then threaded into the TC(S) main brake rod assembly (Pics 6/7). 

Jumpers to connect the Spitfire MC outlet ports to the stock Europa fittings are identical for both the S2 and the TC(S). Both Europa master cylinders have 3/8”-24 threads for the forward port and 7/16”- 24 threads for the rear port while the Spitfire MC has M10x1.0 threads for both ports. The length of the 3/16” jumpers needed will depend on how the jumpers are routed to the stock Europa brake lines and fittings. For a simple “J” jumper, approximately 6” are needed.  3/8”- 24 male fittings on the MC end and 3/8”-24 female fitting for the forward jumper and 7/16”- 20 female fitting for the rear jumper
(Pic 8).

Like the S2, some may want to install new brake lines instead of jumpers. For the TC(S) however, new lines will have to be run to the rear of the car to connect to the PDWV.


Final Thoughts

One difference not previously mentioned with Spitfire master cylinder is that unlike the stock S2 and TC(S),  the Spitfire MC has a non stepped  bore. For reference, I measured the Europa master cylinders bores as follows:
S2 – primary/rear bore (front brake) 0.70” secondary/front bore ( rear brake) 0.66”
TC(S) -  primary/rear bore (front brake) 0.87” secondary/front bore ( rear brake) 0.84”
Spitfire – straight bore  0.70”

For both of the Europas, the difference in diameter between the front and rear bore is approximately 0.03”- 0.04”. On the stock Europa master cylinders, the smaller front secondary bore supplies the rear brakes. The larger rear primary bore supplies the front brakes. I created a separate calculations sheet detailing the various estimated hydraulic pressures and braking forces between the various master cylinders for the Europas. There is also an Excel spreadsheet laying out the bore sizes, master cylinder hydraulic pressures and caliper/wheel cylinder braking forces.

When used on the S2, the Spitfire conversion will result in the same bore size for the front brake but a slightly larger bore size for the rear brake when compared to stock. Keeping the same stock front calipers and rear wheel cylinders, the front braking force should be the same as stock while the rears will have a approximately 9% lower braking force. The end result is the same braking force as the UK spec S2 with an unboosted  single circuit 0.70” master cylinder. How many average drivers can discern a less than 10% reduction of rear brake force with the Spitfire MC.

For the TC(S), the Spitfire conversion will result in smaller bore size for the front and rear brakes when compared to stock. This will result in an overall higher front and rear brake force but with a longer travel.  Again as with the S2, the end result is the same as the UK spec TC with 0.70” single circuit master cylinder but without servo assist.  For owners of the TCS, one item of note is the smaller rear wheel cylinder fitted to the TCS which will result in a approximately 9% smaller braking force to the rear brakes when compared to the TC.

One important variable not mentioned in any detail is the difference in brake travel between the different master cylinders used with the Europas. Not having driven a Spitfire MC converted Europa, I can’t comment on the effect of the Spitfire master cylinder on front to rear brake balance and in the case of the TCS, the change in brake travel. In both cases however, the front to rear brake balance will change with the change to the Spitfire single bore master cylinder.  With the S2, the change may not be perceptible to most drivers. For the TC(S), the change should be definitely noticeable if the brake booster had originally failed.

I've included a spread sheet collated by a fellow Europa owner amassing a ton of data on Europa and Spitfire master cylinder. There is a line detailing the brake travel for each master cylinder that can be used as a comparison. He cautions however that some of information has not been verified by him, specifically the items highlighted in PURPLE, and should not considered as absolute truth. 

Again, please treat the information offered in this article with caution until verified by the user. I've included a Dropbox link of the main article, an expanded pictures page, a calculations page, a spread sheet showing the calculations for easier scan and finally the spread sheet of the Europa and Spitfire master cylinder data.

https://www.dropbox.com/sh/sf9yd61xpv2vlgl/AAAoOhR8Fai1cmW89dNVv6Moa?dl=0 

 

Joji Tokumoto
12/7/16
Rev 0
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: jbcollier on Sunday,December 25, 2016, 12:17:48 PM
Thank you for a detailed and carefully written article!  It will be very helpful for people working on their brake systems.  I have just one comment:

On a stock Lucas/Girling/Lockheed brake master cylinder, the pushrod does not function as the primary piston stop.  The pushrod is retained by a curved/cupped washer which bears against the circlip and provides the primary piston stop.  The pushrod has a flared end which is held between the curved/cupped retaining washer and the primary piston but it has a wee bit of play so it is free to move around.

So you can swap original pushrods with pushrods from a Lucas/Girling/Lockheed replacement master cylinder.

Aftermarket master cylinders are another matter entirely.  Generally I have found aftermarket master cylinders to not last as long as an original cylinder and I would recommend using Lucas/Girling/Lockheed cylinders if at all possible.
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: Grumblebuns on Monday,December 26, 2016, 06:52:36 AM
The small wiggle room in the Europa Girling units. I believe, also pre-sets the brake pedal free play that most manufacturers recommend. The Spitfire arrangement has the primary piston hard against the push rod by piston spring pressure. As far as I can see there is no free play when installed on the Europa. Do you see a potential problem with this lack of free play? I don't know enough about the Spitfire braking system to see if there is a way to make free play adjustment on the car else where in the linkage.

I consider the budget Spitfire MC at $60 a pop as a consumable item. If the seals wears out, replace the unit. There is a more expensive MC replacement built by TRW (Taiwan COO) at $200. Externally and visually, it doesn't look any different from the cheaper MC and I'm not sure if it's worth the extra money but would this now be considered a factory replacement?   
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: jbcollier on Monday,December 26, 2016, 07:56:32 AM
Yes, TRW/Lockheed makes master cylinders to factory specification.

Another consideration is that the factory maintenance schedule specifies replacing ALL hydraulic seals at 40K miles (70K kilometres).  I rebuild the calipers but replace the master and rear wheel cylinders.
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: 2483R on Tuesday,December 27, 2016, 09:59:48 AM
An interesting mod is to use a Land Rover master cylinder reservoir, Land Rover P/N AEU1045. It is a bolt on swap to the Spitfire master and results in a level (not sloped) reservoir with near equal fluid reservoir capacity for both front and rear brakes. Attached is a picture.

Regrettably, it will not work on a TC as the rear of the Land Rover reservoir hits the steering rack when installed. But a S2 master is more out in the open, so it may work there. Not having an S2 I cannot say, perhaps an S2 owner can try it and comment.

I would also comment the factory TC/Special master has a sloped reservoir, probably meaning it was originally used in a car where it was mounted at an angle, just like the Spitfire.

An alternative to using brake line jumpers in a large loop around the master is banjo bolts. A more expensive but also more elegant solution. Attached is a pic.

Using a Spitfire master makes a lot of sense, as the front calipers and rear wheel cylinders for a S2/TC came from a Spitfire. (although a Special does use a different rear wheel cylinder) But do make sure the front/rear brake lines are connected to the same master outlet ports as they are in the Spitfire.

IMO, brake balance is an issue, especially when using EBS green stuff pads on the front. On my TC it is easy to lock the fronts and not the rears. But on the other hand, balance may have been an issue with the factory setup. I’ve had a Spit master installed on my TC for almost 30 years, so long that it is hard for me to remember what the factory setup was like.


Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: LotusJoe on Tuesday,December 27, 2016, 11:34:53 AM
Joj,
As always, an excellent article !
 
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: Grumblebuns on Wednesday,December 28, 2016, 07:14:23 AM
An interesting mod is to use a Land Rover master cylinder reservoir, Land Rover P/N AEU1045. It is a bolt on swap to the Spitfire master and results in a level (not sloped) reservoir with near equal fluid reservoir capacity for both front and rear brakes. Attached is a picture.

Regrettably, it will not work on a TC as the rear of the Land Rover reservoir hits the steering rack when installed. But a S2 master is more out in the open, so it may work there. Not having an S2 I cannot say, perhaps an S2 owner can try it and comment.

I would also comment the factory TC/Special master has a sloped reservoir, probably meaning it was originally used in a car where it was mounted at an angle, just like the Spitfire.

An alternative to using brake line jumpers in a large loop around the master is banjo bolts. A more expensive but also more elegant solution. Attached is a pic.

Using a Spitfire master makes a lot of sense, as the front calipers and rear wheel cylinders for a S2/TC came from a Spitfire. (although a Special does use a different rear wheel cylinder) But do make sure the front/rear brake lines are connected to the same master outlet ports as they are in the Spitfire.

IMO, brake balance is an issue, especially when using EBS green stuff pads on the front. On my TC it is easy to lock the fronts and not the rears. But on the other hand, balance may have been an issue with the factory setup. I’ve had a Spit master installed on my TC for almost 30 years, so long that it is hard for me to remember what the factory setup was like.


I have a  question on the topic of locking up the rear brakes and brake balance in general. I also can't lock up my rear brakes on my S2.It's all stock in terms of brake equipment but does have EBC green stuff pads, 185 Toyo R888s all around and lowered front suspension. It also takes a lot of effort to lock up the fronts with the R888s. I'm wondering if the desire to be able to lock up the rears on max braking is even desirable.

I crunched some numbers from my spread sheet to determine rear braking  percentages.

S2 stock - (rear) 486#/(front) 5528# = 9%
S2 Spitfire - (rear) 436#/(front) 5528# = 8%
TC stock - (rear) 300#/(front) 3504# = 8.5%
TCS stock - (rear) 263#/(front) 3504# = 7.5%
TC Spitfire - (rear) 434#/(front) 5528# = 7.8%
TCS Spitfire - (rear) 380#/(front) 5528# = 6.9%

There is a spread of about 2% between the stock S2 and the TCS with Spitfire MC.  Both the stock S2 and TC have the rear brakes at about 9%.  Changing to the Spitfire alters the balance a tiny bit, around 2%, more for the TCS than the S2 or TC. Assuming my numbers are correct, I'm wondering how many people will be able to detect the difference.
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: jbcollier on Wednesday,December 28, 2016, 08:24:38 AM
In an absolutely perfect world, you would want all four brakes to be able to lock at the same time.  This would mean that both axles were working at best efficency prior to locking.  Not living in a perfect world, cars are usually set up so that the fronts lock first.  If the rears lock first, the rear end slews around in any panic situation which is a BAD thing.  It's much better to slide straight into something rather than spin and hit it sideways.

This was a significant problem with many US vehicles until the arrival of anti-lock brakes.  US vehicles often had brakes set up for medium to heavy loads and would lock their rear brakes first if lightly loaded.  Heck you can see it in every car chase from a 70s TV show or Hollywood movie.  Most European vehicles of that period had a load sensitive valve on the rear brakes which, for some reason, US vehicles took a much longer time to adopt.
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: BDA on Wednesday,December 28, 2016, 08:52:43 AM
I don't think I'd want my rears to lock up unless I could get my fronts to lock up first.
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: surfguitar58 on Wednesday,March 21, 2018, 11:00:17 AM

I crunched some numbers from my spread sheet to determine rear braking  percentages.

S2 stock - (rear) 486#/(front) 5528# = 9%
S2 Spitfire - (rear) 436#/(front) 5528# = 8%
TC stock - (rear) 300#/(front) 3504# = 8.5%
TCS stock - (rear) 263#/(front) 3504# = 7.5%
TC Spitfire - (rear) 434#/(front) 5528# = 7.8%
TCS Spitfire - (rear) 380#/(front) 5528# = 6.9%

There is a spread of about 2% between the stock S2 and the TCS with Spitfire MC.  Both the stock S2 and TC have the rear brakes at about 9%.  Changing to the Spitfire alters the balance a tiny bit, around 2%, more for the TCS than the S2 or TC. Assuming my numbers are correct, I'm wondering how many people will be able to detect the difference.

Joji: Digging into the archives here. I'm afraid I don't understand the above figures. Are these brake pad contact forces for rear (drums) and front (disks)? Are these without boosters? Please advise.
Tom
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: Certified Lotus on Wednesday,March 21, 2018, 11:03:38 AM
I’m installing a proportioning valve for the rear brakes when I make all new hydraulic lines.
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: Grumblebuns on Thursday,March 22, 2018, 12:01:50 PM

I crunched some numbers from my spread sheet to determine rear braking  percentages.

S2 stock - (rear) 486#/(front) 5528# = 9%
S2 Spitfire - (rear) 436#/(front) 5528# = 8%
TC stock - (rear) 300#/(front) 3504# = 8.5%
TCS stock - (rear) 263#/(front) 3504# = 7.5%
TC Spitfire - (rear) 434#/(front) 5528# = 7.8%
TCS Spitfire - (rear) 380#/(front) 5528# = 6.9%

There is a spread of about 2% between the stock S2 and the TCS with Spitfire MC.  Both the stock S2 and TC have the rear brakes at about 9%.  Changing to the Spitfire alters the balance a tiny bit, around 2%, more for the TCS than the S2 or TC. Assuming my numbers are correct, I'm wondering how many people will be able to detect the difference.

Joji: Digging into the archives here. I'm afraid I don't understand the above figures. Are these brake pad contact forces for rear (drums) and front (disks)? Are these without boosters? Please advise.
Tom

This a while back but I think I was trying to show the change in braking force proportion, front to rear, between the Spitfire M/C to the Girlings due to the 0.70" straight bore of the Spitfire. The numbers I used was, I believe, just the pressure of the M/C on the front pistons/rear cylinders. As far as I know, the boosters are interchangeable so both boost the pressure the same amount. Brake force proportion is the same, with or without boosters. Does this make it any clearer? The numbers are not absolute, I was just trying to show how forces changed with the use of the Spitfire M/C.     
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: surfguitar58 on Thursday,March 22, 2018, 01:25:40 PM
Thanks Joji. I guess I am not getting why the proportions change when the M/C bore changes. Is the stock Girling M/C bore stepped? (i.e. different bore diameter for front and rear?) What am I missing?

I am looking into the possibility of sleeving the stock TCS M/C down to a .700 bore. There are brake shops that do sleeving, but not generally for diameter reduction. Pistons would have to be turned down and piston seals designed for a .700 bore adapted to the modified pistons. Maybe new springs too. I placed a WTB post in the classifieds section hoping to flush out someones old TCS M/C that they replaced with a Spitfire M/C to experiment on, but so far, no takers.

Why sleeve and not just do the Spitfire swap? Just to avoid the need for wrong-side adapter tubes and the funny angle of the reservoir, and also to keep the original-ish M/C. Is this a foolish exercise fought with danger on a critical safety component of the car? Yeah, probably. The most common fatal last words after "watch this" and "hold my beer" are probably "I got this, I'm an engineer".

Tom
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: Grumblebuns on Thursday,March 22, 2018, 06:03:34 PM
Tom, the stock Girling M/Cs are stepped and the Spitfire M/C is straight bore. With my calculations, I was just trying to show the difference in braking power for the rears with the Spitfire M/C.
 
It cost around $300 to get a M/C re-sleeved by White Post or Apple Hydraulics plus the cost of the rebuild kit. The Spitfire M/C costs around $70 brand new, plus another $30 for fittings and brake lines. I suppose White Post can sleeve a TCS Girling down to a smaller diameter but then as you said, you still have to locate the correct internal piston arrangement and hope the modification works. If you don't want to fabricate new lines. I believe you can order flexible S/S braided brake lines with the correct fittings to jumper the stock lines to the Spitfire M/C. Not much to say about the sloped reservoir, it's what you get.
       
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: EuropaTC on Thursday,March 22, 2018, 11:47:32 PM
Just to avoid the need for wrong-side adapter tubes and the funny angle of the reservoir, and also to keep the original-ish M/C.

Tom,

If you want to retain the original look and sleeve your old m/cyl to a reduced bore, can you use the pistons/seals from the 0.7" Triumph and thus have a source of new replacement parts to reduce machining costs ? 

Bearing in mind the Federal TCS has a larger bore I can't think how moving to a smaller bore is going to upset the brake balance to any noticeable extent.  If you have the OEM disc/Drum setup then the contribution from the rears is so down on modern designs in anything from light to 1G loading that I can't imagine a situation in which you'd lock the rears first. (but I do like your "I got this, I'm an engineer" which must rank alongside "how hard can it be ?" as one of the greats  :)  )

You might not like the increase in pedal travel though, that was something I initially liked and then ended up being uncomfortable with and finally changing to a 19mm (0.75") m/cyl. a couple of years later.

Brian
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: surfguitar58 on Friday,March 23, 2018, 06:17:01 AM
Joji: I was not aware the stock TCS M/C was stepped! Do you happen to recall what the diameters are? (I tried to back stock M/C diameters out of your numbers but keep getting a larger bore for the fronts than the rears, which I think is wrong way around.)

Regarding the economics of sleeving vs Spitfire, the way I pictured it going is I buy someone’s junk TCS M/C for $50, machine a 304 SS sleeve myself ($20 for 7/8” x 5/8” SS tube blank and tube of Permatex sleeve retainer), turn the pistons down myself, buy a Spitfire rebuild kit for the .700” seals ($25). So, in my head I’m into it for $100 + my time. Honestly, I have about a 50% confidence level I could make this work, which is why I’m not going to experiment on my own perfectly good M/C.

Brian: I thought about your idea of using innards from a Spitfire M/C in the sleeved Girling, but the lengths and location of the piston flanges would have to be the same as the Stock M/C. This is why I’d still like to get my hands on an old TCS M/C to reverse engineer it.

I’m very interested in your take on pedal travel. I actually love the short throw on my current brake pedal (applied with he-man force) and realize I would be giving that up with the small-bore M/C. So, you find .75” is the Goldilocks diameter? What Europa version do you have and did you make any other brake mods?
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: EuropaTC on Friday,March 23, 2018, 08:19:30 AM
I’m very interested in your take on pedal travel. I actually love the short throw on my current brake pedal (applied with he-man force) and realize I would be giving that up with the small-bore M/C. So, you find .75” is the Goldilocks diameter? What Europa version do you have and did you make any other brake mods?

On the pedal travel thing, it's something that you can easily model on a spreadsheet and if you do then you'll wonder what all the fuss is about because the numbers aren't massively different. 

But....  I found that the perception of how much my right foot moved to apply the brakes overruled the maths despite me constantly telling myself "this is less travel than the Elan" and it just kept niggling away.   I guess it's the angle the pedal went to that made the impression on me because the Europa had about 4cm travel compared to over 4.5cm travel on the Elan using the same master cylinder (bigger caliper pistons/different pedal ratios on the Elan) and yet I thought the Elan pedal felt tight, the Europa too near the floor.

The OEM setup on my car (a TC) was a single circuit 0.7" m/cyl with servo and personally 0.75" would be as far as I'd want to go without a servo/booster on the OEM layout. I ran 0.75" diameter as a single circuit system on the OEM discs and drums for many years both with & without a servo, the only issue I found was that I needed higher friction pads without a servo to feel confident in traffic.  If you feel the pedal pressure is high now, maybe some higher friction pads would sort things out for you without changing m/cylinders ?

In conclusion I find it's a very personal thing, brakes are just one of those things that you have to feel happy with in your own mind.
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: Grumblebuns on Friday,March 23, 2018, 09:27:27 AM
I found an old TCS M/C core in my spare parts bin to measure. The smaller bore section for the rear brakes (front section on the M/C) measures 0.83x" and the larger bore section for the front brakes (rear section of the M/C) measures 0.87x". The measurements are as accurate as I can get with my internal bore gauge being a bit too short to barely be able to reach the back bore section.

If you're interested, I'm willing to let go of the spare TCS M/C I have for you to experiment on. The reservoir is missing but the internal pistons appear to be intact.
 
Title: Re: Installing a Spitfire Master Cylinder on a Federal Europa
Post by: surfguitar58 on Friday,March 23, 2018, 10:45:04 AM
I found an old TCS M/C core in my spare parts bin to measure. The smaller bore section for the rear brakes (front section on the M/C) measures 0.83x" and the larger bore section for the front brakes (rear section of the M/C) measures 0.87x". The measurements are as accurate as I can get with my internal bore gauge being a bit too short to barely be able to reach the back bore section.

If you're interested, I'm willing to let go of the spare TCS M/C I have for you to experiment on. The reservoir is missing but the internal pistons appear to be intact.
 

That would be great! Thanks Joji. PM-ing you for price and shipping details.

Interestingly, the figures I backed out of your numbers above were .8414" rear and .8792 front. Somehow I got them backwards.

Tom