Topic: Crank Bearings

[stueveone]

Hey guys,
Just took the necessary measurements for my crank bearings and here's what I came up with:

Case letters: AAABB
Crank Letters: JLAAAAA PL1111
Plastigage: All bearing measured out to .051

Still unclear on bearing math/selection etc...

Questions:
1. What bearings to try test with plastigage first?
2.So the case OD is represented by the case letters while the Case ID is represented by the crank letters?
3. Are there no numbers for the OD of the rod's big end?
4.PL refers to the Rod ID?

Am I anywhere in the freakin' ballpark here?!!!
Thanks!

[Ernest T]

I think the letters on the cases and crank refer to the main bearings, not the rod big ends.  The connecting rod and crank pin measurements are in the mnual which is available free on the site under 750.  You can measure the clearance with plastigauge, standard clearance is .0008-.0018 and max is .0032 so .051 is way out of spec.  Are you sure that is right?

[cbr954]

The AAAAA are the crank main bearing journal diameters.  The numbers are the rod bearing journal diameters.  The rods have a 1, 2, or 3 stamped on them to indicate the rod internal diameter.  There is a chart in the honda manual that gives you a bearing color to use with the indicated letters and numbers on your parts.  I am guessing your plastigage measurement was in millimeters as .051mm is about .002", which is right where I like to put them.

[HondaMan]

Hey guys,
Just took the necessary measurements for my crank bearings and here's what I came up with:

Case letters: AAABB
Crank Letters: JLAAAAA PL1111
Plastigage: All bearing measured out to .051

Still unclear on bearing math/selection etc...

Questions:
1. What bearings to try test with plastigage first?
2.So the case OD is represented by the case letters while the Case ID is represented by the crank letters?
3. Are there no numbers for the OD of the rod's big end?
4.PL refers to the Rod ID?

Am I anywhere in the freakin' ballpark here?!!!
Thanks!

You're at about 0.0020" (like CBR954 said), so there's nothing wrong with that. If the rods all P'gage similarly, I'd recommend leaving them be. Most veteran Big Four riders will tell you their engine didn't run as well before the bearings loosened to at least that much, and as one example: mine were at 0.0018" average at 55,000 miles in 1980, and when I last looked at them in 2005 they were at 0.0022" average with 126,000 miles on them.

[Ernest T]

Metric system!  Doh!

[bryanj]

Not DOH they were built metric, it's you yanks that are awkward working in inches still


Ducks and steps backwards to avoid the brickbats!!


Have a Nice Day Now

[Don R]

We tried metric but someone chickened out. Now our new cars require both sets of tools. Good deal huh?

[Ernest T]

Not DOH they were built metric, it's you yanks that are awkward working in inches still


Ducks and steps backwards to avoid the brickbats!!


Have a Nice Day Now

Hey, at least we use one or the other! 

[stueveone]

Well, if it's good enough for HM, it's good enough for me! Looks like I'm reusing my bearings.
However, as far as the numbers go still a bit foggy on what they reference. . .

Tell me if this is true:
The case (in my instance AAABB) refer to the main bearing OUTER diameter?
The crank (in mine JLAAAAA) refers to the main INNER diamter?
The crank (PL1111) refers to the con rod INNER diamter?

[Ernest T]

You got me, I thought the case letters referred to the bearing thickness.   When you think of the chart, it references the case inside bearing diameter vs the crank journal outside diameter.  However, if you follow the green bearings on the diagonal, they use the same bearings on different case inside bearing and outside crank diameters.

[cbr954]

The letters on the case refer to the size of the bore in the case that the bearing inserts fit in.  The letters on the crank is the diameter of the main journal diameter.  The other set of numbers are the diameter of the journal on the crank for the connecting rods.  There is a number on the big end of the connecting rods that refer to the inside diameter of the connecting rod.  The different bearing thicknesses have a corresponding color coding,  green, yellow, brown and black.  The same color of bearing can be used on different combinations of case and journal diameters(as per the honda chart) because the bearing will be crushed a different amount depending on the size of the case and thus change the actual inside bearing diameter.  It sounds more complicated than it is.  If the clearances plastiguage ok you are good to go.

[Ernest T]

The letters on the case refer to the size of the bore in the case that the bearing inserts fit in.  The letters on the crank is the diameter of the main journal diameter.  The other set of numbers are the diameter of the journal on the crank for the connecting rods.  There is a number on the big end of the connecting rods that refer to the inside diameter of the connecting rod.  The different bearing thicknesses have a corresponding color coding,  green, yellow, brown and black.  The same color of bearing can be used on different combinations of case and journal diameters(as per the honda chart) because the bearing will be crushed a different amount depending on the size of the case and thus change the actual inside bearing diameter.  It sounds more complicated than it is.  If the clearances plastiguage ok you are good to go.

I don't understand why the letters would refer to the bore size of the case that the bearings fit in.  It's line bored, why aren't all the bores the same exact size?  I understand how crank journals can be off slightly because each is machined seperately.

[cbr954]

You have to remember that the differences between the different letters are measured in ten thousands of an inch.  Most people dont even have a tool that can measure them accurately enough to detect a difference in the bores.  Honda bored the holes then measured each one and assigned the appropriate letter for the size, down to ten thousands of an inch, very small differences with occur in mass production.

[HondaMan]

CBR954 hits the nail on the head: in general machining practice, having cases like these bolted together to a "torque" from a torque wrench produces not-real-even case compressions. After they are align-bored and released, the holes often grow during the second bolt-up, after the threads in the holes smooth out and the torque becomes different. This can easily generate 4 tenths of a thousandth difference.

I first discovered this on Honda cases circa 1974, when we align-bored at K0 sandcast with over 100k miles on it. The holes were a little bigger than the case numbers indicated (which you'd expect by then), but they were not in line, but almost half a thou. So, the cases were bored 0.010" and shimmed with pegged shims, and new Black bearings were installed after polishing the crank journals. The final Plastigaging came in around 0.0015" for the 5 bearings. The most remarkable thing happened, though: that engine was so smooth that we started calling it "the electric 750". It was by FAR the smoothest running 750 I have ever seen. If I had the $$, I'd do it to mine in a heartbeat!

[stueveone]

Ok, well looks like I'll be re-using my crank main bearings after all.
As far as con rods, I've got a set from another motor however they will definitely need new bearings. I just platiguaged all 4 and came up with these measurements:

With NEW green bearings 3 were all .002 with 1 being .002 with a NEW brown.
Hondaman, you mentioned in this post that .002 was OK for used bearing clearances, but in your book you mention that if the bearings are new they should be half that number, like .001? Is that correct?

Thanks again for your help guys.

[stueveone]

Any takers? Trying to order these bearings quick!
Thanks!

[cbr954]

If they are at .002 I would run them.  That is within spec and if I remember right your main are at .002 also so I would say you are good to go.

[stueveone]

So, then, clearance is clearance regardless of if the bearings are new or old? You wouldn't want to fit them a tad tighter if new to break in or anything?

Thanks!

[Grabcon]

So this is kind of on topic but a little off. I have a motor torn down that I need to plastigage. Do you put in a bolts in the case and and torque to spec? Or just those over the main bearings?

[cbr954]

So, then, clearance is clearance regardless of if the bearings are new or old? You wouldn't want to fit them a tad tighter if new to break in or anything?

Thanks!

If you checked with old bearings then new ones would be ever so slightly tighter.  I dont have a problem with using old bearings if they look ok and are within spec though.  In my opinion.....plain bearings dont break in.  If you have metal to metal contact in a babbit bearing than the bearing will be toast.

[cbr954]

So this is kind of on topic but a little off. I have a motor torn down that I need to plastigage. Do you put in a bolts in the case and and torque to spec? Or just those over the main bearings?

I just torque the main bearing bolts but thats just me.  I do put some in a couple of places around the cases though and snug them to make sure the cases are pulled together good.  I dont install and torque all of the other bolts though.

[stueveone]

That's the thing, I checked with brand new bearings, which is why I was wondering if i should go a little tighter of bearings since the measurement was .002 with new ones in there.

I did the same as CBR954, I just torqued the main bolts and a few case bolts.

[cbr954]

That's the thing, I checked with brand new bearings, which is why I was wondering if i should go a little tighter of bearings since the measurement was .002 with new ones in there.

I did the same as CBR954, I just torqued the main bolts and a few case bolts.

I would run them.  .002 is a good clearance to run.

[Grabcon]

Out of curiosity where do you buy crank main bearings and rod bearings for these CB750's? What should one expect to pay?

[stueveone]

I bought mine from Bikebandit. Like 12 bucks per half. YIKES!

[stueveone]

PM from Hondaman... Wanted to make sure the info is out there for all!

"Well, one thing I don't think I made clear in my book about "new" was this: if the crank journal is freshly polished flat, that is considered "new". Under those conditions, Honda uses the clearance of 0.0008" to 0.0012" as spec. When working with used crank journals, they are seldom flat, so don't go below 0.0012" on used journals with new bearings, unless you'll be especially careful about the break-in. If you use the correct oils (20w50, or at least 20w40), clearance up to 0.0032" will work fine in the end. If the number is bigger than 0.0015", just don't run with 10w(anything) oils."

Sweet. Thanks Mark!

[Leandro]

I haven't been able to find much information or photos of where the connecting rod's bearing numbers are located, and I've been confused on the numbers I have found on the rods. Could any of ya'll help me figure it out? In the following pictures, I'm not sure if the number on the big end is  14 or I 4, and I'm pretty sure the numbers on the arm aren't useful right now.

[afkrejci90]

Can't you just order ones of the same color code that are already on the bearing or is there an issue with this? Sorry to jack the thread.

[Kickstart]

subscribing to this thread... I have the same questions as afkrejci90 and leandro.

My numbers a simlar on my project... and I was also thinking about replacing the bearings because the looked a little worn.

[MessnerMoto]

CBR954 hits the nail on the head: in general machining practice, having cases like these bolted together to a "torque" from a torque wrench produces not-real-even case compressions. After they are align-bored and released, the holes often grow during the second bolt-up, after the threads in the holes smooth out and the torque becomes different. This can easily generate 4 tenths of a thousandth difference.

I first discovered this on Honda cases circa 1974, when we align-bored at K0 sandcast with over 100k miles on it. The holes were a little bigger than the case numbers indicated (which you'd expect by then), but they were not in line, but almost half a thou. So, the cases were bored 0.010" and shimmed with pegged shims, and new Black bearings were installed after polishing the crank journals. The final Plastigaging came in around 0.0015" for the 5 bearings. The most remarkable thing happened, though: that engine was so smooth that we started calling it "the electric 750". It was by FAR the smoothest running 750 I have ever seen. If I had the $$, I'd do it to mine in a heartbeat!

I will resurrect this topic and this great post by Mark. But everybody is free to answer

Today I tried to measure crankcase holes for crankshaft using micrometer.





I didn't get to actual measure... but I did measure the difference of 0.03mm in ovalness of some holes. Basically if I measure the hole in vertical(top-down) direction the hole is in specs.... But if I measure a hole in horizontal direction some holes are bigger 0.03mm then in there vertical measurement.

 I torqued all the bolts to spec. I've put some oil on top of bolts... I now that engine lost oil at some point in history but I didnt care because I've got a new crankshaft from cycleX..

Also after some time I noticed that top and bottom cases are not aligned perfectly. I can feel it under my nails(in holes where cases meet) that top and bottom are misaligned by several 1/100 of mm.

All the input is appreciated.

Thanks...

[HondaMan]

Yep, Messner, this is exactly what happens, and triggered my friend Jim's effort to make the old "electric 750". His sandcast enjoyed a less-than easy life (Jim rode hard and long), and it was specifically this difference in the holes that made him align-bore it. But...this is also common to many, many of these SOHC4 engines, in all 5 sizes that I have worked with (750/500/550/350F/400F). The reason: the cases distort over time from heat, and specifically from the top half of the case being hotter than the bottom half, causing all the tiny warpages that make them slightly misalign these 40 years later, when disassembled. That's why I advocate ALWAYS using Plastigage, and not so much bore-gage measurements, to ensure the vertical clearance (i.e., in the axis of the rods) is adequate for good operation. This is where the oil has to do its job, and the bearing joints in these engines experience almost no load (and CERTAINLY no wear!), so letting them be slightly wider will not harm the engine in use.

But...all this said: if you DO decide to align-bore them now, since the cases will not warp any more in future years, that engine will last much, much longer than they already do. And, the smoothness will have to be ridden to be believed!

On my own engine (in 2013, at 138+K miles) I went a slightly different route as an experiment, and it has turned out well: I Plastigaged every bearing (rod and crank) and selected the next size tighter-than-indicated (by Honda's rules) bearing for every site (I might add: I did this with all the valve guides, too). I then took it easy for the break-in of 1000 miles, and the power increase is dramatic (to me), as is the smoothness. There is no clearance more than 0.0009" in my engine's bottom end, now BUT...if this is undertaken, it must be done with ALL the bearings, not just the crank or the rods, as they are all fed by the same pressure stream. If one is allowed to be more than 0.0004" larger than the others with new bearings, it will hog more oil than it should and the others will all quickly wear to match the loosest one. I wanted to avoid this, on purpose: now I suspect the engine will outlive me? As a side note: the largest valve guide clearance (intake) in mine is 0.0008", some are 0.0006", and the largest exhaust clearance is 0.0018" (most are 0.0016"). No, the valves do not get "stuck" or drag, in fact they run so quiet to redline that it sounds like a DOHC engine now. I recently set the valve clearances back to OEM numbers (I have long run 0.003"/0.004" on mine) to see how quiet I can now get it to run (mine has the early-style free-rolling rocker shafts, so these do click a bit). It should be a fun season of these experiments!

[MessnerMoto]

Yep, Messner, this is exactly what happens, and triggered my friend Jim's effort to make the old "electric 750". His sandcast enjoyed a less-than easy life (Jim rode hard and long), and it was specifically this difference in the holes that made him align-bore it. But...this is also common to many, many of these SOHC4 engines, in all 5 sizes that I have worked with (750/500/550/350F/400F). The reason: the cases distort over time from heat, and specifically from the top half of the case being hotter than the bottom half, causing all the tiny warpages that make them slightly misalign these 40 years later, when disassembled. That's why I advocate ALWAYS using Plastigage, and not so much bore-gage measurements, to ensure the vertical clearance (i.e., in the axis of the rods) is adequate for good operation. This is where the oil has to do its job, and the bearing joints in these engines experience almost no load (and CERTAINLY no wear!), so letting them be slightly wider will not harm the engine in use.

But...all this said: if you DO decide to align-bore them now, since the cases will not warp any more in future years, that engine will last much, much longer than they already do. And, the smoothness will have to be ridden to be believed!

On my own engine (in 2013, at 138+K miles) I went a slightly different route as an experiment, and it has turned out well: I Plastigaged every bearing (rod and crank) and selected the next size tighter-than-indicated (by Honda's rules) bearing for every site (I might add: I did this with all the valve guides, too). I then took it easy for the break-in of 1000 miles, and the power increase is dramatic (to me), as is the smoothness. There is no clearance more than 0.0009" in my engine's bottom end, now BUT...if this is undertaken, it must be done with ALL the bearings, not just the crank or the rods, as they are all fed by the same pressure stream. If one is allowed to be more than 0.0004" larger than the others with new bearings, it will hog more oil than it should and the others will all quickly wear to match the loosest one. I wanted to avoid this, on purpose: now I suspect the engine will outlive me? As a side note: the largest valve guide clearance (intake) in mine is 0.0008", some are 0.0006", and the largest exhaust clearance is 0.0018" (most are 0.0016"). No, the valves do not get "stuck" or drag, in fact they run so quiet to redline that it sounds like a DOHC engine now. I recently set the valve clearances back to OEM numbers (I have long run 0.003"/0.004" on mine) to see how quiet I can now get it to run (mine has the early-style free-rolling rocker shafts, so these do click a bit). It should be a fun season of these experiments!

Thanks for the fast replay Mark!

If I understand correctly majority of bikes have this problem and lot of people on this forum are not aware of this?

Selecting bearings according to just vertical diameter of a hole(Plastigage ) will work in my engine condition? (0.03mm-0.004mm difference on some holes in vert. and horiz. measurements)

What are the pegged shims ? ("the cases were bored 0.010" and shimmed with pegged shims")

Thanks