Article [13] ST1300 - Clutch Slave Cylinder Replacement

For many years I was an ST1100 guy. I had three over the years and sold them for something smaller, a wee strom. I loved it. A good fried of mine father died and he for whatever reason was unable to sell his fathers bike and offered it to me. So I bought it. It is a 2006 non abs with 50,000 miles. After riding it for a while I figured out that it also is too heavy for me. So I started going over it so I could sell it free of any problems. That's when I noticed the leak. I was upset and worried that it would cost me an arm and a leg to get it fixed. That is when I found MaxPete's article. What a godsend. I ordered the parts and got to work. The instructions were clear and gave me everything I needed to do the job. The job worked out perfectly with only one self inflicted glitch. Here is what I would like to reiterate to all who try this repair.
BE EXTRMELY careful when reinstalling the banjo bolt. If you cross thread it you cannot secure it without a leak. You will then have to do the entire dismantle again, re tap the
threads and start all over again. I know of what I speak.
I was having trouble with the vasoline method of working with the crush washers so I took a dab of crazy glue and glued the top washer to the bolt and the bottom washer to the CSC. I therefore only had to deal with the center washer. Worked like a charm.
I also found myself having difficulty with holding the backmost bolt on the CSC. I couldn't get a wrench on it and the ratchet was too big to allow me the reinstall the bolt head on. So I cut a small piece of emery paper about 1/4" wide, wrapped it around the 8mm socket and glued it with crazy glue. I put a small amount of grease inside of the socket then put the bolt inside of the socket. The grease helped retain the bolt in the socket while I was trying to get the bolt to take the first bite. It allowed me to install the bolt and gave me the purchase on the socket that I needed to tighten it down enough to get the small socket wrench engaged.
I offer these thoughts because they worked for me and I hope if tried, they might work for you guys.
Thank you MaxPete and everyone who has commented on this CSC repair.
Tom Keating
 
Excellent post Tom!
Mike, I struggled mightily with removal of the banjo bolt myself. Due to my shoulder issue, I didn’t have the strength to break it free. What ended up working for me was to seat the closed end of a combination wrench on the bolt head so that the open end of the wrench was pointing almost straight back toward the rear tire. I was then able to use a long, stout screwdriver to act as a lever on the wrench. Very hard to describe, I’m sorry— I didn’t think to take a pic but it allowed me to move the wrench just enough for it to break free. That sucker was tight!!!

I also had difficulty with the 3rd bolt on the clutch slave but I used an old truck of making my fingers sticky with some form-a-gasket in order to hold the socket and bolt and get it seated.
Sometimes it pays to look at things from different angles and think outside of the box.
 
Awesome article. Will come handy in the next couple of months as it seems like my CSC has crapped out. For now I'm just topping off the reservoir until I summon the courage to do the work - I'm more worried about doing something stupid and causing more damage when I'm working by myself. Will go ahead and order parts. Bike is already sitting in the garage for a week now looking sad
 
Sounds good Longwood - but don’t hold off too long if you’re still riding it. Somedat the seal in the CSC will really let go and when that happens, you will be stuck off the road.
Pete
For once, I might be okay with the typo in the name lol
 
CSC guru's---- Thanks to all for your help/guidance/suggestions--- I was able to complete the installation yesterday. I truly could not have done without you guys. My next issue --- any suggestions on the clutch bleeding? Unfortunately the fluid ran low in the reservoir so I'm sure I got air in the lines ----- do I need to buy one of those pumps to put fluid in the system?
Thanks
 
CSC guru's---- Thanks to all for your help/guidance/suggestions--- I was able to complete the installation yesterday. I truly could not have done without you guys. My next issue --- any suggestions on the clutch bleeding? Unfortunately the fluid ran low in the reservoir so I'm sure I got air in the lines ----- do I need to buy one of those pumps to put fluid in the system?
Thanks
I say no to the pump. Get a check valve bleeder and just use the lever to pump the fluid through and the air out. You'll also want to bleed the banjo fitting at the master cylinder, just like you would at the downstream nipple. I'd bleed there first and then the nipple down at the slave cylinder.
 
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CSC guru's---- Thanks to all for your help/guidance/suggestions--- I was able to complete the installation yesterday. I truly could not have done without you guys. My next issue --- any suggestions on the clutch bleeding? Unfortunately the fluid ran low in the reservoir so I'm sure I got air in the lines ----- do I need to buy one of those pumps to put fluid in the system?
Thanks

You don't need a pump to put fluid INTO the system - rather, you need a vacuum pump to draw the air OUT of the system. For that, I used an inexpensive hand-operated vacuum pump connected at the bleeder nipple right beside the coolant bottle. This one lists for $69.99 at Princess Auto in Canada - but it was on sale for 50% off. You would find the same thing in the US at Harbour Fright (ooops - another typo) - for around the same money.
1599167354129.png

It is a two-person operation - in my experience - but this little unit worked really well and by being careful to keep the master cylinder reservoir full, we had everything working great within about 10 minutes with minimal use of brake fluid. The point I'd make is that if you are going to own and operate a Honda ST1300 or ST1100 with ABS, TC and on-board galley and head, you are going to need to bleed something at some point, so this is worthwhile investment.

One caution:
  • do NOT spill brake fluid on anything you care about. It will destroy paint faster than you can say "Jack Robinson" and it also is extremely hard on body parts like eyes and open cuts. Some folks get a ferocious rash from even being near it.
  • do NOT use old brake fluid. This stuff is very hygroscopic which means that it absorbs moisture from the atmosphere and that means that an old can of brake fluid WILL have some water in it. If you use fluid from an open can or bottle, you WILL promote more corrosion in your hydraulic system - which is one of the reasons you are having all this fun with your clutch slave cylinder in the first danged place. So, open a brand new can or bottle, use what you need out of it - and chuck the rest as soon as you are certain you don't have another leak.
OK - that was two cautions.

So - sue me. ;)

Pete
 
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You'll also want to bleed it at the banjo fitting, just like you would at the downstream nipple. I'd do that first and then down at the slave cylinder.

Ideally, you should bleed it at the banjo fitting, but due to very the poor access to that part of the bike, this is simply not practical. The bleeder nipple is pretty close to the banjo fitting on top of the slave cylinder and so the amount of trapped air will be minimal.

In the experience of the folks who have done this repair, bleeding at the bleeder nipple works just fine. The other thing you may find is that after you have bled the system, pop the bike up on the centre-stand and leave the top cover off the master cylinder for a few hours (but cover it with a plastic baggie to prevent stuff from climbing in there). Do NOT do this if is raining outside or in your garage.

You will find that any remaining bubbles will migrate up the line and come out at the master cylinder. You won't see them, but they'll have bubbled out nonetheless.

Pete
 
I meant the banjo fitting on the clutch master cylinder, not the slave cylinder. See the post I linked to.
 
Ahhhhh....right you are. Sorry for the mix-up.

Most people are doing OK if they can actually see the slave cylinder banjo bolt - I just didn’t see how one could bleed it
 
Ahhhhh....right you are. Sorry for the mix-up.

Most people are doing OK if they can actually see the slave cylinder banjo bolt - I just didn’t see how one could bleed it
No worries, I edited it to clarify.
 
Hi All:
OK, well, it looks like I am one of the lucky ducks who has a problem with the clutch slave cylinder (we'll refer to it as the CSC) on my 2007 ST1300.

The symptoms of a leaking or failed clutch slave cylinder are:
  • little or no resistance on the clutch lever (only if the fluid level is low - see #2);
  • fluid level in the master cylinder drops over a short time (you'll see it in the sight glass);
  • NO external leak under the bike (at least not initially - and this is important, so read-on);
  • EDIT: the clutch is OK when cold, but the lever goes soft and gears are hard to shift when it is warmed up.
If those things (especially #1 or #2 AND #3 or #4) are happening to you - it is likely that you have a clutch slave cylinder problem and you definitely need to fix it.

NOTE: the CSC layout on the ST1100 is completely different from that on the ST1300. The ST1100 CSC is mounted on the front of the engine on the clutch housing itself and so servicing it is quite simple because access is pretty good - except for working around an exhaust header on some bikes. Nonetheless, the symptoms of the problem and basic repair scheme are identical - only the access to the CSC differs between the two bikes.

The ST1300 clutch slave cylinder is mounted on the rear engine casing about 6-8 inches above the bottom of the bike (see the photo below in the article). Access to the three 6 mm bolts that fasten it to the case and to the hydraulic fittings that are mounted on it, is really tight due to the proximity of the front edge of the swing arm, the lower fuel tank, speed sensor, oil filter, gear shift linkage and a bunch of hoses, and God-only-knows what else down in there. The failure mode of the CSC is that the piston seal leaks and allows clutch fluid (which is DOT4 brake fluid) to leak into a cavity in the rear engine casing where the CSC is mounted. That cavity is reasonably large and so a fair bit of fluid can leak into it before it is filled, at which point the excess clutch fluid will dribble out of a weep-hole in the engine case casting and eventually wind up on the floor under the bike.

NOTE: it could take some time and several fillings of the clutch master cylinder for any clutch fluid to leak externally and that is why I stated that you may not see an external leak - at least initially.

Let me state for the record that I HAVE bled the clutch hydraulic system and it is all good (no air in the system), except that all of symptoms #1, #2 and #3 have occurred AFTER the bleeding operation and the fluid level continued to drop, albeit slowly, AFTER bleeding. When my CSC began leaking in the fall of 2016, I found that as long as I topped-up the fluid level in the master cylinder, the clutch worked just fine. However, city riding (i.e. lots of clutch use) caused the level to drop noticeably over a few hundred KM - and that is definitely not supposed to happen. Also, after the second time I added fluid to the master cylinder, there was a small puddle under the bike from the weep-hole in the slave cylinder - so, as noted above, the fluid eventually does go somewhere other than into the engine itself.

TEMPORARY FIXES - or - JUST SKIPPING THE CSC REPAIR ALTOGETHER
As a temporary fix, you might be tempted to plug the weep-hole with something like JB Weld - but don't.

Plugging the weep-hole is definitely not a good idea and will not keep your bike on the road any longer. The weep-hole is there to stop clutch fluid from being forced into the engine crankcase and contaminating the engine oil. If you plug the hole, you risk damaging the engine because the leak will continue with the fluid being forced into the engine. Engine coolant pumps also have weep-holes for exactly the same reason: to keep antifreeze out of the engine oil. So, while you can keep the bike going for some time by simply topping-up the clutch master cylinder as the fluid leaks out, the CSC seal will eventually really fail - and then your bike will be disabled with no clutch function (...and this will undoubtedly happen late at night, with a passenger, in the middle of nowhere, in the rain).

If you develop a CSC leak on the road, my advice is to buy a new bottle of clean DOT4 brake fluid and keep a close eye on the clutch master cylinder fluid level. Check it and top it up as necessary - and repair it as soon as possible. Don't let the fluid level drop too low or you will introduce air into the hydraulic line - and that would be a big PITA to fix on the road.

ST OWNERS REPAIR METHOD versus THE HONDA WAY....
The Honda ST1300 Service Manual provides the dealer-approved method of removing and replacing the clutch slave cylinder and at first, it doesn't sound too bad. The three main steps in the Honda-approved repair method are as follows:
1) drain clutch fluid.​
2) remove engine from frame.​
3) etc. etc. etc.​
It all sounds OK, until you get to Step 2...for which I was recently quoted the princely sum of $1273 in labour by a local Honda dealer (parts and taxes extra).

As a mechanical engineer who specializes in vehicles, I have to say that a repair scheme requiring removal of a vehicle engine to replace a small, externally-mounted $75 part held on by three small bolts, is simply stupid and is clear evidence of a lack of planning and good engineering practice on the part of the OEM. To me, this confirms that the ST1300 was designed by a team - and then simply "plopped" onto the market without any further development. You can easily see that: the first 2003 ST1300 is virtually identical to the very last over-priced 2014 models that have been sitting unsold in showrooms around the world for several years. Don't get me wrong - I love my big ST bike - but Honda Engineering abandoned this design right after they completed it in around mid-2001 as a replacement for the highly successful ST1100. With the ST1300, they created a great new bike with more power, less weight, fuel injection, better handling and some cool new features like the electric windshield and upgraded electrical system - but they did pretty crummy job on serviceability. I have seen this before in large OEMs: the Product & Development Engineering people essentially "throw the drawings over the wall" (and that is precisely the term used in industry) to the Manufacturing people, and then they just walk away chuckling.

Anyhow, being a frugal lad, I wasn't going to pay upwards of $1500 to have such a small simple component replaced and so I did a pretty extensive web search on this topic and corresponded with several people. I found in fact, that several ST Owners Forum members have done this repair without removing the engine - and you can too. It takes a few special tools (costing less than $100) and a bit of agility to get access - but the job is doable in a couple of hours and it will save you a great deal of money - like well over $1000 and possibly much more, depending on the labour rates in your locale. The other thing is that the Honda repair scheme represents a major risk of causing other damage to your bike because it basically requires tearing the entire motorcycle apart and manhandling that big ST1300 engine out of the bike. Once the engine is out of the bike, I would guess that the actual CSC repair would take about 15 minutes (really!!) - it is that simple a task.

NOTE: while a bike hoist is a great tool - I think that this is one job where a hoist will not likely help. To get access to the CSC, you need to get UNDER the middle of the bike and in my view, a hoist would make this more difficult. You will likely want a pad or a piece of thick carpet to lie on while you access the CSC from under the right hand side of the bike (see the photos below).

Anyhow, I have assembled the required parts (and courage) to take on this task but ANY assistance / advice / visits with BEvERages, etc...would be very much appreciated.

Kind regards,

Pete

ARTICLE (written on Feb. 18-2017 & revised since then):
Today (Feb. 18-2017) was a beautiful 21C (nearly 70 deg. F) and it was a big day in the Disaster Central Workshop. A friend and I replaced the clutch slave cylinder (CSC) on my 2007 ST1300. The big problem is access and how the heck to get tools on the CSC and the hydraulic fitting that is attached to it - and which tools will fit in that tight space. This is because the danged thing is mounted up on the backside of the rear engine case and is crowded with the oil filter, the gear shift linkage, a bunch of hoses and the front edge of the swing arm - and there isn't an easy way to even see what you're doing - let alone do it.

The photo below is from an eBay "for sale" posting and it shows an ST1300 rear engine case. The greenish area in the lower centre of the case with three bolt holes and large depression in the centre is where the CSC goes. The hole with the big bearing on the upper right is where the drive shaft housing attaches and way down below it at the lower right hand corner is the hole for the gear shifter shaft. The smaller hole between the shifter and the CSC is where the speed sensor mounts. The large silvery hole on the lower left is for the oil filter. You can easily see that the clutch slave cylinder mounting is pretty tangled up with everything else. I suppose Uncle Soichiro could have made the CSC harder to get at - but I think he is saving that improvement for the ST1600, which I am told is coming soon.
;)



The next photo shows a clutch slave cylinder held in position by three small hex-head bolts on the rear engine case - with the oil filter in place to its left. The hydraulic banjo-bolt fitting has been removed from the CSC in the photo NOTE: The big splined gearbox output shaft is in the extreme upper right hand corner of the photo below.
Clutch_Slave_Cylinder_01.jpg

All of the parts needed for the job are listed in the text below. I ordered them from my local Honda dealer and they were delivered within a few days. The total cost was around $95 CDN in Oct. 2016:
  • clutch slave cylinder - $75.81
  • gasket - $5.22 and,
  • the crush washers were (a ridiculous) $4.49 each - you need three of them).
Given the modest cost of a new clutch slave cylinder and the challenging nature of the repair task, I didn't even think of trying to rebuild it. Getting in there is just too difficult along with getting the old CSC out and the new one back in - to risk having a dud rebuild. Besides, the parts to rebuild a CSC are somewhere around $50-60 - so you wouldn't even save that much.

After the preliminaries of getting the lower belly fairings off, removing the brake fluid from the clutch hydraulic system with a vacuum bleeder and arranging access to the underside of the bike, the actual R&R job on the CSC only took about an hour or so.

PRELIMINARIES
Take the bike to a car-wash to hose off the underside and rear of the engine and the area around the front end of the swing arm. This will make the job much easier and more pleasant and it will reduce the risk of crud getting into the clutch hydraulic system.
Assemble all of the tools and other stuff shown in the photo below. Here is a list:

  • a garbage bag to drape the fuel tank and fairing to protect them from brake fluid spills;
  • a good bright shop light to illuminate the dark corners of the underside of the bike;
  • a new engine oil filter of your favourite brand plus half a litre of new engine oil;
  • a little bottle of typewriter correction fluid (we call it Wite-Out) to mark the position of the gear shift linkage on the splined shifter shaft that sticks out of the rear engine case;
  • an Allen key (5 mm as I recall) to remove the fairing belly panels;
  • a strap wrench to remove the oil filter (plus a little drain pan for the small amount of oil you will lose);
  • flex ring ratchet wrenches - 8, 10 and 12 mm.
NOTE: You want really good ring ratchet wrenches that are fairly long (NOT stubbies) with ratchets that have a lot of pawls so that they will work even if only moved through a few degrees of rotation ( I treated myself to some nice ones off the local Snap-On truck;
  • a 1/4" drive ratchet (also with fine rotation pawls) with a fairly long handle and an 8 mm hex socket to match;
  • a blade tool of some type to scrape off the old gasket from between the CSC and the engine case (we also used a little brass brush);
  • a little jar of Vaseline petroleum jelly (the stuff you use on baby's bums);
  • a tube of high-temp silicone grease for the socket in the CSC that engages the clutch push-rod;
  • a good JIS screwdriver to remove the clutch master cylinder lid (you do not want to strip those delicate little screws);
  • a new, unopened container of DOT4 brake fluid (this stuff soaks up water and you do not want any of that in your hydraulic system);
  • a vacuum brake bleeder tool;
  • a short (say...3-6 inch long) piece of clear 6 mm ID plastic tubing (fuel line etc.) to fit on the clutch fluid bleeder nipple;
CSC_Tools&Supplies.jpg
Above: tools & supplies needed to remove and replace an ST1300 clutch slave cylinder including the 12 mm ring-ratchet wrench and the 8 and 10 mm flex ring ratchet wrenches you'll need. Be sure to buy long wrenches (not stubbies) and get ones with small rotation pawls that will still "ratchet" even if moved only through a few degrees of rotation. These are standard items from Snap-On tools.

Brake_Vacuum_Bleeder-Tool.jpg
Above: inexpensive manual vacuum brake bleeder and custom made brake fluid drain reservoir. I got the bleeder at Princess Automotive (equiv. to Harbor Fright in the US) and it worked like a charm. It is normally $70 CDN but I got it on sale for half that and it is well worth the full price IMO. Note the fluid in the Heinz ketchup bottle - that is all we got from the clutch hydraulic system.

GETTING ACCESS - STAGE 1

  • start with the bike on the centre stand;
  • drape the fuel tank & fairing area with a garbage bag to protect it from the inevitable spill of brake fluid;
  • disconnect the battery (you do NOT want a helper to hit the starter during this job);
  • remove black belly fairing panels (no other fairing panels or exhaust parts need to be removed) - requires a 5 mm Allen key;
  • remove the oil filter - you will lose about half a litre of engine oil, so you'll need a drain pan to catch the oil;
  • remove the speed sensor (I didn't do this, but Forum member Igofar suggested it and I think its a good idea for better access);
  • use the vacuum brake bleeder to drain the clutch hydraulic system (you'll be surprised at how little fluid comes out) - requires a 10 mm ring ratchet wrench for the bleeder nipple;
GETTING ACCESS - STAGE 2
  • now put the bike on the side stand - access is not great, but its OK;
NOTE: a hoist would NOT help IMHO and laying the bike right down on its left side, as several people have done, might make things easier, but we did OK on the side stand;
  • mark the position of the gearshift link on its splined shaft (SEE NOTE BELOW - added on Feb. 22) I used a little stripe of typewriter correction fluid painted across the shaft and link to mark the correct position);
  • remove the pinch bolt that secures the gear shift link to the transmission shift-shaft and remove the link itself - requires a 10 mm flex ring ratchet wrench;
  • let the gear shift linkage dangle out of the way (DO NOT disassemble the other end of the linkage that connects to the shifter pedal on the LH side of the bike - just let it dangle);
  • NOTE: now would be a good time to clean and lubricate that linkage. They are prone to seizing and that makes shifting gears nearly impossible.
  • there are 3-4 small drain hoses held within a sheet metal bale that is bolted to the rear case of the engine - slip those hoses out of the bale and lash them up out of the way (you can see the sheet metal bale in one of the photos below);
CSC_Access-Shot-1.jpg
Above: accessing the CSC from the right hand side - while bike is on the sidestand. The nice warm sun made it a little more bearable.

CSC_Access-Shot-2.jpg
Above: we found that working with one hand above the right hand side exhaust pipes and the other below the pipes seemed to work OK. You can see that the banjo bolt and the three (3) crush washers have been removed and are in the magnetic-bottom parts pan.

CSC_Access-Shot-3.jpg
Above: access is not great - but its OK. My helper's hand is on the CSC and you can see the oil filter mounting boss, sheet metal hose bale and the gear shift linkage dangling down (note the Iron Ring - he's a Canadian engineer).

MARKING the POSITION OF THE GEAR SHIFT LINK on the SHIFTER SHAFT
This is an exploded schematic of the gearshift mechanism from an ST1100 (the ST1300 mechanism is very similar). Note the component marked "Bolt" - that is the fastener that must be completely removed.
Gear_Shift_Linkage.jpg

Here are the steps to marking the splined shifter shaft:
With the bike on the side-stand: wiggle under the bike from the RIGHT HAND side and look straight up just inboard of the right hand exhaust pipes. You will see a little link with a Heim joint and a rod that goes right across the bike and connects to the gear shift pedal. That link is mounted on a splined shaft that sticks out of the rear engine case (see the photo of where that shaft is located) - this is the transmission shifter shaft. There is a 6 mm pinch bolt that secures the link to the splined shifter shaft and AFTER you mark the position of the link - you will remove that pinch bolt with a 10 mm hex socket or open end wrench. You may need to use a slot screwdriver to gently pry open the gap in the link to enable it to slide off the shifter shaft.

NOTE: the pinch bolt must be completely removed to get the link off the shaft.

It is necessary to mark the position of that link on the splined shaft so that you can put it back onto the same spline. I marked it by painting a little stripe of typewriter correction fluid (Wite-Out) across the end of the shaft and the link (sorry - I don't have a photo of that step). If you don't mark the correct position, you may reassemble the link onto the wrong spline and your gear shift pedal will be either much too high or too low. Being off even one spline tooth makes a big difference to the position of the shift pedal.

The photo below shows a view of the pinch bolt (it is the silver hex-head bolt in the middle of the first photo) on the link as you are sitting on the floor looking in just over the RH exhaust pipe. The second photo (lost for some reason) shows the linkage from below. Put a bit of Wite-Out on the link and on the end of the splined shaft to mark the correct position.
Gear_Shift_Linkage-5.jpg
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REMOVAL of the CLUTCH SLAVE CYLINDER
NOTE
: some brake fluid may drip down in the next few steps so keep a rag handy and be careful to keep it out of your eyes!

  • first loosen the banjo bolt which secures the two hydraulic fittings to the top of the CSC and pull it straight up and out - requires the 12 mm flex ring ratchet wrench;
  • remove the three (3) crush washers from between the fittings;
NOTE: one washer goes between the lower hydraulic fitting and the CSC, the second goes between the two fittings and the third goes between the banjo bolt head and the top of the upper fitting (the banjo-bolt is part no. 22 in the schematic below and the crush washers are parts no. 25 (there are 3 of them are in the assembly on top of the CSC).
Clutch Hose ST1300 (Small).JPG
DO NOT REUSE the CRUSH WASHERS (they are cheap, so buy some extras when you order your parts);
  • remove the three 6 mm hex-head bolts that secure the clutch slave cylinder to the engine case - requires the 8 mm 1/4" drive socket & ratchet;
NOTE: now some brake fluid will likely dribble out - that is the fluid that has leaked past the seal in the CSC and the reason you're having all this fun!);
  • clean the area around the CSC mounting pad and inside the cavity in the engine case - particularly the end of the clutch push rod which will be poking into the cavity;
  • be sure to remove all of the old gasket - this can be a bit laborious;
INSTALL the NEW CLUTCH SLAVE CYLINDER (Note - all of the relevant Honda part numbers are included in the text below)
  • test that the banjo bolt threads nicely into the hydraulic port in the new CSC - NOW is the time to confirm that the threads start easily (don`t ask me how I know this);
  • put the new gasket (Honda p/n 22862-MGJ-D00) on the new clutch slave cylinder (Honda p/n 22860-MCS-000);
NOTE: there are two hollow locating dowels (Honda p/n 94301-08100 - Pin Knock 8x10) in the CSC body that align the assembly with the cavity in the engine case: be sure both of them are in place before inserting the three 6 mm bolts;
  • put a small dab of high temp silicone grease into the little socket in the CSC piston - this socket engages the spherical end of the clutch push rod;
  • install the new CSC with three 6 mm bolts (Honda p/n 96001-0602200 - Bolt Flange, 6x22) - and tighten - requires the 8 mm 1/4" drive socket & ratchet;
  • put a small dab of Vaseline on a NEW crush washer (Honda p/n 90545-300-000 - Washer - Oil Bolt) and insert it between the lower of the two hydraulic fittings and the CSC and repeat for a second crush washer, placing it between the lower and upper hydraulic fittings and finally, repeat again for the third crush washer and thread that washer onto the banjo bolt - and slide the bolt down through the washer-hydraulic fitting assembly;
NOTE: this task is a heck of a lot easier to say than it is to do - but work methodically, use Vaseline to stick the washers in place, and you'll get it;
Don't worry about the Vaseline contaminating the brake fluid. You are only going to use a little bit of Vaseline and beside, you will flush it all out during the bleeding operation.
NOTE: BE SURE that the banjo bolt thread starts properly into the hydraulic port of the CSC before you start to tighten it with the wrench.
  • tighten the banjo bolt-hydraulic fitting-crush washer assembly - requires the 12 mm ring ratchet wrench (a flex version of the 12 mm may be better here);
WRAPPING UP
  • re-install the gear shift linkage- being sure to get it on the correct spline on the shifter shaft (aren't you glad you used the typewriter correction fluid to mark it?);
  • re-install the drain hoses into the sheet metal bale and be sure they are not pinched;
Now put the bike back up on the centre stand for the remainder of the job.
  • re-install the oil filter (I suggest using a new one);
  • check oil level: it will likely be at the bottom of the safe range as you will have lost about 1/2 litre when you removed the oil filter - add to correct level;
  • bleed the clutch hydraulic system (and don't spill any brake fluid on anything you care about) - requires the 10 mm ring ratchet wrench and the vacuum bleeder tool;
NOTE: the bleed nipple on the clutch hydraulic system is quite small (and fairly well hidden just aft of the coolant overflow bottle above the side stand pivot point).
I had to search around to find some clear 6 mm ID fuel line tubing to use on the clutch bleeder nipple, but once I had that - using the vacuum bleeder made the task very easy.
  • re-install the black belly fairings;
  • re-connect the battery;
  • start the bike and test the function of the clutch and observe for leaks;
That's it - you're done! :D Its now time for a tastey BEvERage, I would say.

I don't think I have forgotten anything but if I have, please point it out in a PM and I will correct the post. I wish I had more photos, but frankly, it is so tight in there that taking them wasn't really feasible.

ACKNOWLEDGEMENTS
I want to thank all the folks who have offered encouragement on this journey and most especially, to those who have given specific advice on this challenging, but totally manageable task. I also want to thank my friend Craig who helped with a lot of the under-bike fun and ST Owners Forum member MikeDo, who stopped by just as final assembly was done and got roped into helping me bleed the hydraulic system.

One final note on that task: the vacuum bleeder really was a huge help. While you can bleed the air out of a filled system in other ways, getting the fluid out of the system in the first place without a vacuum bleeder really would be a bit of a challenge.

Cheers,

Pete

MaxPete,

Thanks to you and the other contributors of this detailed explanation of the CSC replacement. I signed up to this forum in June when I bought a 2004 ST1300, but I don't think that I have commented or posted until now. The 2004 ST1300 is my first motorcycle in 40 years. I'm 65 now and I'm pretty sure I got rid of my 1969 Kawasaki 500 Mach 3 before I was 25. The 2004 ST1300 (113K km) has been great. I've put 4500 trouble free kms on it this summer/fall and have only checked the oil and tire pressures until........ Last week when I took it out the clutch felt soft and the friction zone had moved closer to the handle. The clutch almost felt like it wasn't fully disengaging with the lever pulled all the way to the grip. I read your article and a lot of the comments and other material on this forum. I decided it was most likely the CSC and jumped in. I'm in Ontario about an hour north of Toronto. The local Honda MC dealer got me parts the next day (BTW the CSC is now $118 CDN). Also got some ratcheting swivel box end wrenches and the same vacuum pump (it is $20 at Princess Auto online now).

The removal of the CSC and the banjo fitting bolt were no problem. The banjo bolt was really tight. I had to put a pipe over the end of the 12 mm ratchet wrench for more leverage. When I pulled the banjo bolt out you could see that the upper banjo fitting (bleed line) had been under tension and when released it cocked to a 10 deg angle or so. I knew that would be trouble going back together and it was. I appreciate all the warnings from members about not cross threading the banjo bolt into your new CSC so I was careful. But, I could not even come close to getting the banjo bolt safely started. I gave it a rest for a while and considered writing a post that started: Parting out a 2004 ST1300...... :) What actually came to mind was to try and loosen or disconnect the other end of the bleed line, install the banjo bolt with a tension free fitting and then deal with the bleed fitting bracket on the other end. I had already removed both side fairings because I also drained, flushed and filled the cooling system. I had to move the overflow bottle for access. You can see the bracket and 6mm bolt that secures the bleeder valve end of the line to the engine block but it is very hard to get a wrench on it. I used a thin 8mm 12 point box end wrench could get a 16th or 32nd of a turn each time flipping the wrench over or going above or below the engine hanger bracket which is inconveniently in the way. I didn't know what consequences there would be if I removed the hanger bracket so I left it alone. I eventual got the bracket bolt almost all the way out which provided some play at that end so I though I would try the banjo bolt on the CSC again. Still no go! I then to took the bleeder bracket bolt completely out. The bleed line was totally free and I tried the banjo bolt installation again. This time the banjo bolt with two fittings and three washers threaded almost instantly into the CSC - first try!!!! Getting the bleed bracket bolt started was not problem either; it was about 10 minutes of tightening that bolt a 32nd of a turn at time. Bled the system. Went for a big run and the clutch feels great!

I suspect that disconnecting the bleed valve end of the line was mentioned somewhere in the comments and replies and I missed it. It's what worked for me and save my relationship with the big blue girl!!!

Thanks again MaxPete, Igofar and all the others who so willing share your information and experiences!!

Cheers and stay safe,

Fred
 
Hi Fred:
You are most welcome and thanks for the kind words! I am delighted that you got your ST going again and here’s to many more years and km of trouble-free whizzing along.

I will try to add a note about loosening or removing the bleed line attach point to the article in case someone else has that problem (we didn’t at all on my 2007).

BTW, I was born in Peterborough and grew up in Richmond Hill - so we’re from around the same area. In fact, my ST1300 was my first bike in more than 25 years - so we’re similar there too. Are you going to the ST Owners RTE (ride to eat) event this coming Sunday in Bayside ON? The weather is looking super and it’ll be fun - hope to see you there!

Pete
 
Pete,

I'm in Barrie and am not free the whole day on Sunday. I won't be able to get to Bayfield and back but will get out locally for a bit. I haven't really noticed the RTEs before but will definitely follow them next year and hopefully meet up you and other ST riders/forum members. Enjoy your ride on Sunday! And again, thanks for your help.

Fred
 
Hi All:
OK, well, it looks like I am one of the lucky ducks who has a problem with the clutch slave cylinder (we'll refer to it as the CSC) on my 2007 ST1300.

The symptoms of a leaking or failed clutch slave cylinder are:
  • little or no resistance on the clutch lever (only if the fluid level is low - see #2);
  • fluid level in the master cylinder drops over a short time (you'll see it in the sight glass);
  • NO external leak under the bike (at least not initially - and this is important, so read-on);
  • EDIT: the clutch is OK when cold, but the lever goes soft and gears are hard to shift when it is warmed up.
If those things (especially #1 or #2 AND #3 or #4) are happening to you - it is likely that you have a clutch slave cylinder problem and you definitely need to fix it.

NOTE: the CSC layout on the ST1100 is completely different from that on the ST1300. The ST1100 CSC is mounted on the front of the engine on the clutch housing itself and so servicing it is quite simple because access is pretty good - except for working around an exhaust header on some bikes. Nonetheless, the symptoms of the problem and basic repair scheme are identical - only the access to the CSC differs between the two bikes.

The ST1300 clutch slave cylinder is mounted on the rear engine casing about 6-8 inches above the bottom of the bike (see the photo below in the article). Access to the three 6 mm bolts that fasten it to the case and to the hydraulic fittings that are mounted on it, is really tight due to the proximity of the front edge of the swing arm, the lower fuel tank, speed sensor, oil filter, gear shift linkage and a bunch of hoses, and God-only-knows what else down in there. The failure mode of the CSC is that the piston seal leaks and allows clutch fluid (which is DOT4 brake fluid) to leak into a cavity in the rear engine casing where the CSC is mounted. That cavity is reasonably large and so a fair bit of fluid can leak into it before it is filled, at which point the excess clutch fluid will dribble out of a weep-hole in the engine case casting and eventually wind up on the floor under the bike.

NOTE: it could take some time and several fillings of the clutch master cylinder for any clutch fluid to leak externally and that is why I stated that you may not see an external leak - at least initially.

Let me state for the record that I HAVE bled the clutch hydraulic system and it is all good (no air in the system), except that all of symptoms #1, #2 and #3 have occurred AFTER the bleeding operation and the fluid level continued to drop, albeit slowly, AFTER bleeding. When my CSC began leaking in the fall of 2016, I found that as long as I topped-up the fluid level in the master cylinder, the clutch worked just fine. However, city riding (i.e. lots of clutch use) caused the level to drop noticeably over a few hundred KM - and that is definitely not supposed to happen. Also, after the second time I added fluid to the master cylinder, there was a small puddle under the bike from the weep-hole in the slave cylinder - so, as noted above, the fluid eventually does go somewhere other than into the engine itself.

TEMPORARY FIXES - or - JUST SKIPPING THE CSC REPAIR ALTOGETHER
As a temporary fix, you might be tempted to plug the weep-hole with something like JB Weld - but don't.

Plugging the weep-hole is definitely not a good idea and will not keep your bike on the road any longer. The weep-hole is there to stop clutch fluid from being forced into the engine crankcase and contaminating the engine oil. If you plug the hole, you risk damaging the engine because the leak will continue with the fluid being forced into the engine. Engine coolant pumps also have weep-holes for exactly the same reason: to keep antifreeze out of the engine oil. So, while you can keep the bike going for some time by simply topping-up the clutch master cylinder as the fluid leaks out, the CSC seal will eventually really fail - and then your bike will be disabled with no clutch function (...and this will undoubtedly happen late at night, with a passenger, in the middle of nowhere, in the rain).

If you develop a CSC leak on the road, my advice is to buy a new bottle of clean DOT4 brake fluid and keep a close eye on the clutch master cylinder fluid level. Check it and top it up as necessary - and repair it as soon as possible. Don't let the fluid level drop too low or you will introduce air into the hydraulic line - and that would be a big PITA to fix on the road.

ST OWNERS REPAIR METHOD versus THE HONDA WAY....
The Honda ST1300 Service Manual provides the dealer-approved method of removing and replacing the clutch slave cylinder and at first, it doesn't sound too bad. The three main steps in the Honda-approved repair method are as follows:
1) drain clutch fluid.​
2) remove engine from frame.​
3) etc. etc. etc.​
It all sounds OK, until you get to Step 2...for which I was recently quoted the princely sum of $1273 in labour by a local Honda dealer (parts and taxes extra).

As a mechanical engineer who specializes in vehicles, I have to say that a repair scheme requiring removal of a vehicle engine to replace a small, externally-mounted $75 part held on by three small bolts, is simply stupid and is clear evidence of a lack of planning and good engineering practice on the part of the OEM. To me, this confirms that the ST1300 was designed by a team - and then simply "plopped" onto the market without any further development. You can easily see that: the first 2003 ST1300 is virtually identical to the very last over-priced 2014 models that have been sitting unsold in showrooms around the world for several years. Don't get me wrong - I love my big ST bike - but Honda Engineering abandoned this design right after they completed it in around mid-2001 as a replacement for the highly successful ST1100. With the ST1300, they created a great new bike with more power, less weight, fuel injection, better handling and some cool new features like the electric windshield and upgraded electrical system - but they did pretty crummy job on serviceability. I have seen this before in large OEMs: the Product & Development Engineering people essentially "throw the drawings over the wall" (and that is precisely the term used in industry) to the Manufacturing people, and then they just walk away chuckling.

Anyhow, being a frugal lad, I wasn't going to pay upwards of $1500 to have such a small simple component replaced and so I did a pretty extensive web search on this topic and corresponded with several people. I found in fact, that several ST Owners Forum members have done this repair without removing the engine - and you can too. It takes a few special tools (costing less than $100) and a bit of agility to get access - but the job is doable in a couple of hours and it will save you a great deal of money - like well over $1000 and possibly much more, depending on the labour rates in your locale. The other thing is that the Honda repair scheme represents a major risk of causing other damage to your bike because it basically requires tearing the entire motorcycle apart and manhandling that big ST1300 engine out of the bike. Once the engine is out of the bike, I would guess that the actual CSC repair would take about 15 minutes (really!!) - it is that simple a task.

NOTE: while a bike hoist is a great tool - I think that this is one job where a hoist will not likely help. To get access to the CSC, you need to get UNDER the middle of the bike and in my view, a hoist would make this more difficult. You will likely want a pad or a piece of thick carpet to lie on while you access the CSC from under the right hand side of the bike (see the photos below).

Anyhow, I have assembled the required parts (and courage) to take on this task but ANY assistance / advice / visits with BEvERages, etc...would be very much appreciated.

Kind regards,

Pete

ARTICLE (written on Feb. 18-2017 & revised since then):
Today (Feb. 18-2017) was a beautiful 21C (nearly 70 deg. F) and it was a big day in the Disaster Central Workshop. A friend and I replaced the clutch slave cylinder (CSC) on my 2007 ST1300. The big problem is access and how the heck to get tools on the CSC and the hydraulic fitting that is attached to it - and which tools will fit in that tight space. This is because the danged thing is mounted up on the backside of the rear engine case and is crowded with the oil filter, the gear shift linkage, a bunch of hoses and the front edge of the swing arm - and there isn't an easy way to even see what you're doing - let alone do it.

The photo below is from an eBay "for sale" posting and it shows an ST1300 rear engine case. The greenish area in the lower centre of the case with three bolt holes and large depression in the centre is where the CSC goes. The hole with the big bearing on the upper right is where the drive shaft housing attaches and way down below it at the lower right hand corner is the hole for the gear shifter shaft. The smaller hole between the shifter and the CSC is where the speed sensor mounts. The large silvery hole on the lower left is for the oil filter. You can easily see that the clutch slave cylinder mounting is pretty tangled up with everything else. I suppose Uncle Soichiro could have made the CSC harder to get at - but I think he is saving that improvement for the ST1600, which I am told is coming soon.
;)



The next photo shows a clutch slave cylinder held in position by three small hex-head bolts on the rear engine case - with the oil filter in place to its left. The hydraulic banjo-bolt fitting has been removed from the CSC in the photo NOTE: The big splined gearbox output shaft is in the extreme upper right hand corner of the photo below.
Clutch_Slave_Cylinder_01.jpg

All of the parts needed for the job are listed in the text below. I ordered them from my local Honda dealer and they were delivered within a few days. The total cost was around $95 CDN in Oct. 2016:
  • clutch slave cylinder - $75.81
  • gasket - $5.22 and,
  • the crush washers were (a ridiculous) $4.49 each - you need three of them).
Given the modest cost of a new clutch slave cylinder and the challenging nature of the repair task, I didn't even think of trying to rebuild it. Getting in there is just too difficult along with getting the old CSC out and the new one back in - to risk having a dud rebuild. Besides, the parts to rebuild a CSC are somewhere around $50-60 - so you wouldn't even save that much.

After the preliminaries of getting the lower belly fairings off, removing the brake fluid from the clutch hydraulic system with a vacuum bleeder and arranging access to the underside of the bike, the actual R&R job on the CSC only took about an hour or so.

PRELIMINARIES
Take the bike to a car-wash to hose off the underside and rear of the engine and the area around the front end of the swing arm. This will make the job much easier and more pleasant and it will reduce the risk of crud getting into the clutch hydraulic system.
Assemble all of the tools and other stuff shown in the photo below. Here is a list:

  • a garbage bag to drape the fuel tank and fairing to protect them from brake fluid spills;
  • a good bright shop light to illuminate the dark corners of the underside of the bike;
  • a new engine oil filter of your favourite brand plus half a litre of new engine oil;
  • a little bottle of typewriter correction fluid (we call it Wite-Out) to mark the position of the gear shift linkage on the splined shifter shaft that sticks out of the rear engine case;
  • an Allen key (5 mm as I recall) to remove the fairing belly panels;
  • a strap wrench to remove the oil filter (plus a little drain pan for the small amount of oil you will lose);
  • flex ring ratchet wrenches - 8, 10 and 12 mm.
NOTE: You want really good ring ratchet wrenches that are fairly long (NOT stubbies) with ratchets that have a lot of pawls so that they will work even if only moved through a few degrees of rotation ( I treated myself to some nice ones off the local Snap-On truck;
  • a 1/4" drive ratchet (also with fine rotation pawls) with a fairly long handle and an 8 mm hex socket to match;
  • a blade tool of some type to scrape off the old gasket from between the CSC and the engine case (we also used a little brass brush);
  • a little jar of Vaseline petroleum jelly (the stuff you use on baby's bums);
  • a tube of high-temp silicone grease for the socket in the CSC that engages the clutch push-rod;
  • a good JIS screwdriver to remove the clutch master cylinder lid (you do not want to strip those delicate little screws);
  • a new, unopened container of DOT4 brake fluid (this stuff soaks up water and you do not want any of that in your hydraulic system);
  • a vacuum brake bleeder tool;
  • a short (say...3-6 inch long) piece of clear 6 mm ID plastic tubing (fuel line etc.) to fit on the clutch fluid bleeder nipple;
CSC_Tools&Supplies.jpg
Above: tools & supplies needed to remove and replace an ST1300 clutch slave cylinder including the 12 mm ring-ratchet wrench and the 8 and 10 mm flex ring ratchet wrenches you'll need. Be sure to buy long wrenches (not stubbies) and get ones with small rotation pawls that will still "ratchet" even if moved only through a few degrees of rotation. These are standard items from Snap-On tools.

Brake_Vacuum_Bleeder-Tool.jpg
Above: inexpensive manual vacuum brake bleeder and custom made brake fluid drain reservoir. I got the bleeder at Princess Automotive (equiv. to Harbor Fright in the US) and it worked like a charm. It is normally $70 CDN but I got it on sale for half that and it is well worth the full price IMO. Note the fluid in the Heinz ketchup bottle - that is all we got from the clutch hydraulic system.

GETTING ACCESS - STAGE 1

  • start with the bike on the centre stand;
  • drape the fuel tank & fairing area with a garbage bag to protect it from the inevitable spill of brake fluid;
  • disconnect the battery (you do NOT want a helper to hit the starter during this job);
  • remove black belly fairing panels (no other fairing panels or exhaust parts need to be removed) - requires a 5 mm Allen key;
  • remove the oil filter - you will lose about half a litre of engine oil, so you'll need a drain pan to catch the oil;
  • remove the speed sensor (I didn't do this, but Forum member Igofar suggested it and I think its a good idea for better access);
  • use the vacuum brake bleeder to drain the clutch hydraulic system (you'll be surprised at how little fluid comes out) - requires a 10 mm ring ratchet wrench for the bleeder nipple;
GETTING ACCESS - STAGE 2
  • now put the bike on the side stand - access is not great, but its OK;
NOTE: a hoist would NOT help IMHO and laying the bike right down on its left side, as several people have done, might make things easier, but we did OK on the side stand;
  • mark the position of the gearshift link on its splined shaft (SEE NOTE BELOW - added on Feb. 22) I used a little stripe of typewriter correction fluid painted across the shaft and link to mark the correct position);
  • remove the pinch bolt that secures the gear shift link to the transmission shift-shaft and remove the link itself - requires a 10 mm flex ring ratchet wrench;
  • let the gear shift linkage dangle out of the way (DO NOT disassemble the other end of the linkage that connects to the shifter pedal on the LH side of the bike - just let it dangle);
  • NOTE: now would be a good time to clean and lubricate that linkage. They are prone to seizing and that makes shifting gears nearly impossible.
  • there are 3-4 small drain hoses held within a sheet metal bale that is bolted to the rear case of the engine - slip those hoses out of the bale and lash them up out of the way (you can see the sheet metal bale in one of the photos below);
CSC_Access-Shot-1.jpg
Above: accessing the CSC from the right hand side - while bike is on the sidestand. The nice warm sun made it a little more bearable.

CSC_Access-Shot-2.jpg
Above: we found that working with one hand above the right hand side exhaust pipes and the other below the pipes seemed to work OK. You can see that the banjo bolt and the three (3) crush washers have been removed and are in the magnetic-bottom parts pan.

CSC_Access-Shot-3.jpg
Above: access is not great - but its OK. My helper's hand is on the CSC and you can see the oil filter mounting boss, sheet metal hose bale and the gear shift linkage dangling down (note the Iron Ring - he's a Canadian engineer).

MARKING the POSITION OF THE GEAR SHIFT LINK on the SHIFTER SHAFT
This is an exploded schematic of the gearshift mechanism from an ST1100 (the ST1300 mechanism is very similar). Note the component marked "Bolt" - that is the fastener that must be completely removed.
Gear_Shift_Linkage.jpg

Here are the steps to marking the splined shifter shaft:
With the bike on the side-stand: wiggle under the bike from the RIGHT HAND side and look straight up just inboard of the right hand exhaust pipes. You will see a little link with a Heim joint and a rod that goes right across the bike and connects to the gear shift pedal. That link is mounted on a splined shaft that sticks out of the rear engine case (see the photo of where that shaft is located) - this is the transmission shifter shaft. There is a 6 mm pinch bolt that secures the link to the splined shifter shaft and AFTER you mark the position of the link - you will remove that pinch bolt with a 10 mm hex socket or open end wrench. You may need to use a slot screwdriver to gently pry open the gap in the link to enable it to slide off the shifter shaft.

NOTE: the pinch bolt must be completely removed to get the link off the shaft.

It is necessary to mark the position of that link on the splined shaft so that you can put it back onto the same spline. I marked it by painting a little stripe of typewriter correction fluid (Wite-Out) across the end of the shaft and the link (sorry - I don't have a photo of that step). If you don't mark the correct position, you may reassemble the link onto the wrong spline and your gear shift pedal will be either much too high or too low. Being off even one spline tooth makes a big difference to the position of the shift pedal.

The photo below shows a view of the pinch bolt (it is the silver hex-head bolt in the middle of the first photo) on the link as you are sitting on the floor looking in just over the RH exhaust pipe. The second photo (lost for some reason) shows the linkage from below. Put a bit of Wite-Out on the link and on the end of the splined shaft to mark the correct position.
Gear_Shift_Linkage-5.jpg
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REMOVAL of the CLUTCH SLAVE CYLINDER
NOTE
: some brake fluid may drip down in the next few steps so keep a rag handy and be careful to keep it out of your eyes!

  • first loosen the banjo bolt which secures the two hydraulic fittings to the top of the CSC and pull it straight up and out - requires the 12 mm flex ring ratchet wrench;
  • remove the three (3) crush washers from between the fittings;
NOTE: one washer goes between the lower hydraulic fitting and the CSC, the second goes between the two fittings and the third goes between the banjo bolt head and the top of the upper fitting (the banjo-bolt is part no. 22 in the schematic below and the crush washers are parts no. 25 (there are 3 of them are in the assembly on top of the CSC).
Clutch Hose ST1300 (Small).JPG
DO NOT REUSE the CRUSH WASHERS (they are cheap, so buy some extras when you order your parts);
  • remove the three 6 mm hex-head bolts that secure the clutch slave cylinder to the engine case - requires the 8 mm 1/4" drive socket & ratchet;
NOTE: now some brake fluid will likely dribble out - that is the fluid that has leaked past the seal in the CSC and the reason you're having all this fun!);
  • clean the area around the CSC mounting pad and inside the cavity in the engine case - particularly the end of the clutch push rod which will be poking into the cavity;
  • be sure to remove all of the old gasket - this can be a bit laborious;
INSTALL the NEW CLUTCH SLAVE CYLINDER (Note - all of the relevant Honda part numbers are included in the text below)
  • test that the banjo bolt threads nicely into the hydraulic port in the new CSC - NOW is the time to confirm that the threads start easily (don`t ask me how I know this);
  • put the new gasket (Honda p/n 22862-MGJ-D00) on the new clutch slave cylinder (Honda p/n 22860-MCS-000);
NOTE: there are two hollow locating dowels (Honda p/n 94301-08100 - Pin Knock 8x10) in the CSC body that align the assembly with the cavity in the engine case: be sure both of them are in place before inserting the three 6 mm bolts;
  • put a small dab of high temp silicone grease into the little socket in the CSC piston - this socket engages the spherical end of the clutch push rod;
  • install the new CSC with three 6 mm bolts (Honda p/n 96001-0602200 - Bolt Flange, 6x22) - and tighten - requires the 8 mm 1/4" drive socket & ratchet;
  • put a small dab of Vaseline on a NEW crush washer (Honda p/n 90545-300-000 - Washer - Oil Bolt) and insert it between the lower of the two hydraulic fittings and the CSC and repeat for a second crush washer, placing it between the lower and upper hydraulic fittings and finally, repeat again for the third crush washer and thread that washer onto the banjo bolt - and slide the bolt down through the washer-hydraulic fitting assembly;
NOTE: this task is a heck of a lot easier to say than it is to do - but work methodically, use Vaseline to stick the washers in place, and you'll get it;
Don't worry about the Vaseline contaminating the brake fluid. You are only going to use a little bit of Vaseline and beside, you will flush it all out during the bleeding operation.
NOTE: BE SURE that the banjo bolt thread starts properly into the hydraulic port of the CSC before you start to tighten it with the wrench.
  • tighten the banjo bolt-hydraulic fitting-crush washer assembly - requires the 12 mm ring ratchet wrench (a flex version of the 12 mm may be better here);
WRAPPING UP
  • re-install the gear shift linkage- being sure to get it on the correct spline on the shifter shaft (aren't you glad you used the typewriter correction fluid to mark it?);
  • re-install the drain hoses into the sheet metal bale and be sure they are not pinched;
Now put the bike back up on the centre stand for the remainder of the job.
  • re-install the oil filter (I suggest using a new one);
  • check oil level: it will likely be at the bottom of the safe range as you will have lost about 1/2 litre when you removed the oil filter - add to correct level;
  • bleed the clutch hydraulic system (and don't spill any brake fluid on anything you care about) - requires the 10 mm ring ratchet wrench and the vacuum bleeder tool;
NOTE: the bleed nipple on the clutch hydraulic system is quite small (and fairly well hidden just aft of the coolant overflow bottle above the side stand pivot point).
I had to search around to find some clear 6 mm ID fuel line tubing to use on the clutch bleeder nipple, but once I had that - using the vacuum bleeder made the task very easy.
  • re-install the black belly fairings;
  • re-connect the battery;
  • start the bike and test the function of the clutch and observe for leaks;
That's it - you're done! :D Its now time for a tastey BEvERage, I would say.

I don't think I have forgotten anything but if I have, please point it out in a PM and I will correct the post. I wish I had more photos, but frankly, it is so tight in there that taking them wasn't really feasible.

ACKNOWLEDGEMENTS
I want to thank all the folks who have offered encouragement on this journey and most especially, to those who have given specific advice on this challenging, but totally manageable task. I also want to thank my friend Craig who helped with a lot of the under-bike fun and ST Owners Forum member MikeDo, who stopped by just as final assembly was done and got roped into helping me bleed the hydraulic system.

One final note on that task: the vacuum bleeder really was a huge help. While you can bleed the air out of a filled system in other ways, getting the fluid out of the system in the first place without a vacuum bleeder really would be a bit of a challenge.

Cheers,

Pete
Thanks for this. It's going to make my life a whole lot better!
 
Hi All:
OK, well, it looks like I am one of the lucky ducks who has a problem with the clutch slave cylinder (we'll refer to it as the CSC) on my 2007 ST1300.

The symptoms of a leaking or failed clutch slave cylinder are:
  • little or no resistance on the clutch lever (only if the fluid level is low - see #2);
  • fluid level in the master cylinder drops over a short time (you'll see it in the sight glass);
  • NO external leak under the bike (at least not initially - and this is important, so read-on);
  • EDIT: the clutch is OK when cold, but the lever goes soft and gears are hard to shift when it is warmed up.
If those things (especially #1 or #2 AND #3 or #4) are happening to you - it is likely that you have a clutch slave cylinder problem and you definitely need to fix it.

NOTE: the CSC layout on the ST1100 is completely different from that on the ST1300. The ST1100 CSC is mounted on the front of the engine on the clutch housing itself and so servicing it is quite simple because access is pretty good - except for working around an exhaust header on some bikes. Nonetheless, the symptoms of the problem and basic repair scheme are identical - only the access to the CSC differs between the two bikes.

The ST1300 clutch slave cylinder is mounted on the rear engine casing about 6-8 inches above the bottom of the bike (see the photo below in the article). Access to the three 6 mm bolts that fasten it to the case and to the hydraulic fittings that are mounted on it, is really tight due to the proximity of the front edge of the swing arm, the lower fuel tank, speed sensor, oil filter, gear shift linkage and a bunch of hoses, and God-only-knows what else down in there. The failure mode of the CSC is that the piston seal leaks and allows clutch fluid (which is DOT4 brake fluid) to leak into a cavity in the rear engine casing where the CSC is mounted. That cavity is reasonably large and so a fair bit of fluid can leak into it before it is filled, at which point the excess clutch fluid will dribble out of a weep-hole in the engine case casting and eventually wind up on the floor under the bike.

NOTE: it could take some time and several fillings of the clutch master cylinder for any clutch fluid to leak externally and that is why I stated that you may not see an external leak - at least initially.

Let me state for the record that I HAVE bled the clutch hydraulic system and it is all good (no air in the system), except that all of symptoms #1, #2 and #3 have occurred AFTER the bleeding operation and the fluid level continued to drop, albeit slowly, AFTER bleeding. When my CSC began leaking in the fall of 2016, I found that as long as I topped-up the fluid level in the master cylinder, the clutch worked just fine. However, city riding (i.e. lots of clutch use) caused the level to drop noticeably over a few hundred KM - and that is definitely not supposed to happen. Also, after the second time I added fluid to the master cylinder, there was a small puddle under the bike from the weep-hole in the slave cylinder - so, as noted above, the fluid eventually does go somewhere other than into the engine itself.

TEMPORARY FIXES - or - JUST SKIPPING THE CSC REPAIR ALTOGETHER
As a temporary fix, you might be tempted to plug the weep-hole with something like JB Weld - but don't.

Plugging the weep-hole is definitely not a good idea and will not keep your bike on the road any longer. The weep-hole is there to stop clutch fluid from being forced into the engine crankcase and contaminating the engine oil. If you plug the hole, you risk damaging the engine because the leak will continue with the fluid being forced into the engine. Engine coolant pumps also have weep-holes for exactly the same reason: to keep antifreeze out of the engine oil. So, while you can keep the bike going for some time by simply topping-up the clutch master cylinder as the fluid leaks out, the CSC seal will eventually really fail - and then your bike will be disabled with no clutch function (...and this will undoubtedly happen late at night, with a passenger, in the middle of nowhere, in the rain).

If you develop a CSC leak on the road, my advice is to buy a new bottle of clean DOT4 brake fluid and keep a close eye on the clutch master cylinder fluid level. Check it and top it up as necessary - and repair it as soon as possible. Don't let the fluid level drop too low or you will introduce air into the hydraulic line - and that would be a big PITA to fix on the road.

ST OWNERS REPAIR METHOD versus THE HONDA WAY....
The Honda ST1300 Service Manual provides the dealer-approved method of removing and replacing the clutch slave cylinder and at first, it doesn't sound too bad. The three main steps in the Honda-approved repair method are as follows:
1) drain clutch fluid.​
2) remove engine from frame.​
3) etc. etc. etc.​
It all sounds OK, until you get to Step 2...for which I was recently quoted the princely sum of $1273 in labour by a local Honda dealer (parts and taxes extra).

As a mechanical engineer who specializes in vehicles, I have to say that a repair scheme requiring removal of a vehicle engine to replace a small, externally-mounted $75 part held on by three small bolts, is simply stupid and is clear evidence of a lack of planning and good engineering practice on the part of the OEM. To me, this confirms that the ST1300 was designed by a team - and then simply "plopped" onto the market without any further development. You can easily see that: the first 2003 ST1300 is virtually identical to the very last over-priced 2014 models that have been sitting unsold in showrooms around the world for several years. Don't get me wrong - I love my big ST bike - but Honda Engineering abandoned this design right after they completed it in around mid-2001 as a replacement for the highly successful ST1100. With the ST1300, they created a great new bike with more power, less weight, fuel injection, better handling and some cool new features like the electric windshield and upgraded electrical system - but they did pretty crummy job on serviceability. I have seen this before in large OEMs: the Product & Development Engineering people essentially "throw the drawings over the wall" (and that is precisely the term used in industry) to the Manufacturing people, and then they just walk away chuckling.

Anyhow, being a frugal lad, I wasn't going to pay upwards of $1500 to have such a small simple component replaced and so I did a pretty extensive web search on this topic and corresponded with several people. I found in fact, that several ST Owners Forum members have done this repair without removing the engine - and you can too. It takes a few special tools (costing less than $100) and a bit of agility to get access - but the job is doable in a couple of hours and it will save you a great deal of money - like well over $1000 and possibly much more, depending on the labour rates in your locale. The other thing is that the Honda repair scheme represents a major risk of causing other damage to your bike because it basically requires tearing the entire motorcycle apart and manhandling that big ST1300 engine out of the bike. Once the engine is out of the bike, I would guess that the actual CSC repair would take about 15 minutes (really!!) - it is that simple a task.

NOTE: while a bike hoist is a great tool - I think that this is one job where a hoist will not likely help. To get access to the CSC, you need to get UNDER the middle of the bike and in my view, a hoist would make this more difficult. You will likely want a pad or a piece of thick carpet to lie on while you access the CSC from under the right hand side of the bike (see the photos below).

Anyhow, I have assembled the required parts (and courage) to take on this task but ANY assistance / advice / visits with BEvERages, etc...would be very much appreciated.

Kind regards,

Pete

ARTICLE (written on Feb. 18-2017 & revised since then):
Today (Feb. 18-2017) was a beautiful 21C (nearly 70 deg. F) and it was a big day in the Disaster Central Workshop. A friend and I replaced the clutch slave cylinder (CSC) on my 2007 ST1300. The big problem is access and how the heck to get tools on the CSC and the hydraulic fitting that is attached to it - and which tools will fit in that tight space. This is because the danged thing is mounted up on the backside of the rear engine case and is crowded with the oil filter, the gear shift linkage, a bunch of hoses and the front edge of the swing arm - and there isn't an easy way to even see what you're doing - let alone do it.

The photo below is from an eBay "for sale" posting and it shows an ST1300 rear engine case. The greenish area in the lower centre of the case with three bolt holes and large depression in the centre is where the CSC goes. The hole with the big bearing on the upper right is where the drive shaft housing attaches and way down below it at the lower right hand corner is the hole for the gear shifter shaft. The smaller hole between the shifter and the CSC is where the speed sensor mounts. The large silvery hole on the lower left is for the oil filter. You can easily see that the clutch slave cylinder mounting is pretty tangled up with everything else. I suppose Uncle Soichiro could have made the CSC harder to get at - but I think he is saving that improvement for the ST1600, which I am told is coming soon.
;)



The next photo shows a clutch slave cylinder held in position by three small hex-head bolts on the rear engine case - with the oil filter in place to its left. The hydraulic banjo-bolt fitting has been removed from the CSC in the photo NOTE: The big splined gearbox output shaft is in the extreme upper right hand corner of the photo below.
Clutch_Slave_Cylinder_01.jpg

All of the parts needed for the job are listed in the text below. I ordered them from my local Honda dealer and they were delivered within a few days. The total cost was around $95 CDN in Oct. 2016:
  • clutch slave cylinder - $75.81
  • gasket - $5.22 and,
  • the crush washers were (a ridiculous) $4.49 each - you need three of them).
Given the modest cost of a new clutch slave cylinder and the challenging nature of the repair task, I didn't even think of trying to rebuild it. Getting in there is just too difficult along with getting the old CSC out and the new one back in - to risk having a dud rebuild. Besides, the parts to rebuild a CSC are somewhere around $50-60 - so you wouldn't even save that much.

After the preliminaries of getting the lower belly fairings off, removing the brake fluid from the clutch hydraulic system with a vacuum bleeder and arranging access to the underside of the bike, the actual R&R job on the CSC only took about an hour or so.

PRELIMINARIES
Take the bike to a car-wash to hose off the underside and rear of the engine and the area around the front end of the swing arm. This will make the job much easier and more pleasant and it will reduce the risk of crud getting into the clutch hydraulic system.
Assemble all of the tools and other stuff shown in the photo below. Here is a list:

  • a garbage bag to drape the fuel tank and fairing to protect them from brake fluid spills;
  • a good bright shop light to illuminate the dark corners of the underside of the bike;
  • a new engine oil filter of your favourite brand plus half a litre of new engine oil;
  • a little bottle of typewriter correction fluid (we call it Wite-Out) to mark the position of the gear shift linkage on the splined shifter shaft that sticks out of the rear engine case;
  • an Allen key (5 mm as I recall) to remove the fairing belly panels;
  • a strap wrench to remove the oil filter (plus a little drain pan for the small amount of oil you will lose);
  • flex ring ratchet wrenches - 8, 10 and 12 mm.
NOTE: You want really good ring ratchet wrenches that are fairly long (NOT stubbies) with ratchets that have a lot of pawls so that they will work even if only moved through a few degrees of rotation ( I treated myself to some nice ones off the local Snap-On truck;
  • a 1/4" drive ratchet (also with fine rotation pawls) with a fairly long handle and an 8 mm hex socket to match;
  • a blade tool of some type to scrape off the old gasket from between the CSC and the engine case (we also used a little brass brush);
  • a little jar of Vaseline petroleum jelly (the stuff you use on baby's bums);
  • a tube of high-temp silicone grease for the socket in the CSC that engages the clutch push-rod;
  • a good JIS screwdriver to remove the clutch master cylinder lid (you do not want to strip those delicate little screws);
  • a new, unopened container of DOT4 brake fluid (this stuff soaks up water and you do not want any of that in your hydraulic system);
  • a vacuum brake bleeder tool;
  • a short (say...3-6 inch long) piece of clear 6 mm ID plastic tubing (fuel line etc.) to fit on the clutch fluid bleeder nipple;
CSC_Tools&Supplies.jpg
Above: tools & supplies needed to remove and replace an ST1300 clutch slave cylinder including the 12 mm ring-ratchet wrench and the 8 and 10 mm flex ring ratchet wrenches you'll need. Be sure to buy long wrenches (not stubbies) and get ones with small rotation pawls that will still "ratchet" even if moved only through a few degrees of rotation. These are standard items from Snap-On tools.

Brake_Vacuum_Bleeder-Tool.jpg
Above: inexpensive manual vacuum brake bleeder and custom made brake fluid drain reservoir. I got the bleeder at Princess Automotive (equiv. to Harbor Fright in the US) and it worked like a charm. It is normally $70 CDN but I got it on sale for half that and it is well worth the full price IMO. Note the fluid in the Heinz ketchup bottle - that is all we got from the clutch hydraulic system.

GETTING ACCESS - STAGE 1

  • start with the bike on the centre stand;
  • drape the fuel tank & fairing area with a garbage bag to protect it from the inevitable spill of brake fluid;
  • disconnect the battery (you do NOT want a helper to hit the starter during this job);
  • remove black belly fairing panels (no other fairing panels or exhaust parts need to be removed) - requires a 5 mm Allen key;
  • remove the oil filter - you will lose about half a litre of engine oil, so you'll need a drain pan to catch the oil;
  • remove the speed sensor (I didn't do this, but Forum member Igofar suggested it and I think its a good idea for better access);
  • use the vacuum brake bleeder to drain the clutch hydraulic system (you'll be surprised at how little fluid comes out) - requires a 10 mm ring ratchet wrench for the bleeder nipple;
GETTING ACCESS - STAGE 2
  • now put the bike on the side stand - access is not great, but its OK;
NOTE: a hoist would NOT help IMHO and laying the bike right down on its left side, as several people have done, might make things easier, but we did OK on the side stand;
  • mark the position of the gearshift link on its splined shaft (SEE NOTE BELOW - added on Feb. 22) I used a little stripe of typewriter correction fluid painted across the shaft and link to mark the correct position);
  • remove the pinch bolt that secures the gear shift link to the transmission shift-shaft and remove the link itself - requires a 10 mm flex ring ratchet wrench;
  • let the gear shift linkage dangle out of the way (DO NOT disassemble the other end of the linkage that connects to the shifter pedal on the LH side of the bike - just let it dangle);
  • NOTE: now would be a good time to clean and lubricate that linkage. They are prone to seizing and that makes shifting gears nearly impossible.
  • there are 3-4 small drain hoses held within a sheet metal bale that is bolted to the rear case of the engine - slip those hoses out of the bale and lash them up out of the way (you can see the sheet metal bale in one of the photos below);
CSC_Access-Shot-1.jpg
Above: accessing the CSC from the right hand side - while bike is on the sidestand. The nice warm sun made it a little more bearable.

CSC_Access-Shot-2.jpg
Above: we found that working with one hand above the right hand side exhaust pipes and the other below the pipes seemed to work OK. You can see that the banjo bolt and the three (3) crush washers have been removed and are in the magnetic-bottom parts pan.

CSC_Access-Shot-3.jpg
Above: access is not great - but its OK. My helper's hand is on the CSC and you can see the oil filter mounting boss, sheet metal hose bale and the gear shift linkage dangling down (note the Iron Ring - he's a Canadian engineer).

MARKING the POSITION OF THE GEAR SHIFT LINK on the SHIFTER SHAFT
This is an exploded schematic of the gearshift mechanism from an ST1100 (the ST1300 mechanism is very similar). Note the component marked "Bolt" - that is the fastener that must be completely removed.
Gear_Shift_Linkage.jpg

Here are the steps to marking the splined shifter shaft:
With the bike on the side-stand: wiggle under the bike from the RIGHT HAND side and look straight up just inboard of the right hand exhaust pipes. You will see a little link with a Heim joint and a rod that goes right across the bike and connects to the gear shift pedal. That link is mounted on a splined shaft that sticks out of the rear engine case (see the photo of where that shaft is located) - this is the transmission shifter shaft. There is a 6 mm pinch bolt that secures the link to the splined shifter shaft and AFTER you mark the position of the link - you will remove that pinch bolt with a 10 mm hex socket or open end wrench. You may need to use a slot screwdriver to gently pry open the gap in the link to enable it to slide off the shifter shaft.

NOTE: the pinch bolt must be completely removed to get the link off the shaft.

It is necessary to mark the position of that link on the splined shaft so that you can put it back onto the same spline. I marked it by painting a little stripe of typewriter correction fluid (Wite-Out) across the end of the shaft and the link (sorry - I don't have a photo of that step). If you don't mark the correct position, you may reassemble the link onto the wrong spline and your gear shift pedal will be either much too high or too low. Being off even one spline tooth makes a big difference to the position of the shift pedal.

The photo below shows a view of the pinch bolt (it is the silver hex-head bolt in the middle of the first photo) on the link as you are sitting on the floor looking in just over the RH exhaust pipe. The second photo (lost for some reason) shows the linkage from below. Put a bit of Wite-Out on the link and on the end of the splined shaft to mark the correct position.
Gear_Shift_Linkage-5.jpg
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REMOVAL of the CLUTCH SLAVE CYLINDER
NOTE
: some brake fluid may drip down in the next few steps so keep a rag handy and be careful to keep it out of your eyes!

  • first loosen the banjo bolt which secures the two hydraulic fittings to the top of the CSC and pull it straight up and out - requires the 12 mm flex ring ratchet wrench;
  • remove the three (3) crush washers from between the fittings;
NOTE: one washer goes between the lower hydraulic fitting and the CSC, the second goes between the two fittings and the third goes between the banjo bolt head and the top of the upper fitting (the banjo-bolt is part no. 22 in the schematic below and the crush washers are parts no. 25 (there are 3 of them are in the assembly on top of the CSC).
Clutch Hose ST1300 (Small).JPG
DO NOT REUSE the CRUSH WASHERS (they are cheap, so buy some extras when you order your parts);
  • remove the three 6 mm hex-head bolts that secure the clutch slave cylinder to the engine case - requires the 8 mm 1/4" drive socket & ratchet;
NOTE: now some brake fluid will likely dribble out - that is the fluid that has leaked past the seal in the CSC and the reason you're having all this fun!);
  • clean the area around the CSC mounting pad and inside the cavity in the engine case - particularly the end of the clutch push rod which will be poking into the cavity;
  • be sure to remove all of the old gasket - this can be a bit laborious;
INSTALL the NEW CLUTCH SLAVE CYLINDER (Note - all of the relevant Honda part numbers are included in the text below)
  • test that the banjo bolt threads nicely into the hydraulic port in the new CSC - NOW is the time to confirm that the threads start easily (don`t ask me how I know this);
  • put the new gasket (Honda p/n 22862-MGJ-D00) on the new clutch slave cylinder (Honda p/n 22860-MCS-000);
NOTE: there are two hollow locating dowels (Honda p/n 94301-08100 - Pin Knock 8x10) in the CSC body that align the assembly with the cavity in the engine case: be sure both of them are in place before inserting the three 6 mm bolts;
  • put a small dab of high temp silicone grease into the little socket in the CSC piston - this socket engages the spherical end of the clutch push rod;
  • install the new CSC with three 6 mm bolts (Honda p/n 96001-0602200 - Bolt Flange, 6x22) - and tighten - requires the 8 mm 1/4" drive socket & ratchet;
  • put a small dab of Vaseline on a NEW crush washer (Honda p/n 90545-300-000 - Washer - Oil Bolt) and insert it between the lower of the two hydraulic fittings and the CSC and repeat for a second crush washer, placing it between the lower and upper hydraulic fittings and finally, repeat again for the third crush washer and thread that washer onto the banjo bolt - and slide the bolt down through the washer-hydraulic fitting assembly;
NOTE: this task is a heck of a lot easier to say than it is to do - but work methodically, use Vaseline to stick the washers in place, and you'll get it;
Don't worry about the Vaseline contaminating the brake fluid. You are only going to use a little bit of Vaseline and beside, you will flush it all out during the bleeding operation.
NOTE: BE SURE that the banjo bolt thread starts properly into the hydraulic port of the CSC before you start to tighten it with the wrench.
  • tighten the banjo bolt-hydraulic fitting-crush washer assembly - requires the 12 mm ring ratchet wrench (a flex version of the 12 mm may be better here);
WRAPPING UP
  • re-install the gear shift linkage- being sure to get it on the correct spline on the shifter shaft (aren't you glad you used the typewriter correction fluid to mark it?);
  • re-install the drain hoses into the sheet metal bale and be sure they are not pinched;
Now put the bike back up on the centre stand for the remainder of the job.
  • re-install the oil filter (I suggest using a new one);
  • check oil level: it will likely be at the bottom of the safe range as you will have lost about 1/2 litre when you removed the oil filter - add to correct level;
  • bleed the clutch hydraulic system (and don't spill any brake fluid on anything you care about) - requires the 10 mm ring ratchet wrench and the vacuum bleeder tool;
NOTE: the bleed nipple on the clutch hydraulic system is quite small (and fairly well hidden just aft of the coolant overflow bottle above the side stand pivot point).
I had to search around to find some clear 6 mm ID fuel line tubing to use on the clutch bleeder nipple, but once I had that - using the vacuum bleeder made the task very easy.
  • re-install the black belly fairings;
  • re-connect the battery;
  • start the bike and test the function of the clutch and observe for leaks;
That's it - you're done! :D Its now time for a tastey BEvERage, I would say.

I don't think I have forgotten anything but if I have, please point it out in a PM and I will correct the post. I wish I had more photos, but frankly, it is so tight in there that taking them wasn't really feasible.

ACKNOWLEDGEMENTS
I want to thank all the folks who have offered encouragement on this journey and most especially, to those who have given specific advice on this challenging, but totally manageable task. I also want to thank my friend Craig who helped with a lot of the under-bike fun and ST Owners Forum member MikeDo, who stopped by just as final assembly was done and got roped into helping me bleed the hydraulic system.

One final note on that task: the vacuum bleeder really was a huge help. While you can bleed the air out of a filled system in other ways, getting the fluid out of the system in the first place without a vacuum bleeder really would be a bit of a challenge.

Cheers,

Pete
Thankyou for all the fine directions to change the CSC. I will tackle it one cloudy /rainy day when I work up the ambition.
 
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