Transmission to shaft coupling bolts sheared '07 H38

[flightlead404]

Last weekend I pulled up the cabin sole it the aft cabin for routine maintenance and cleaning and found only 2 of the 4 bolts holding the transmission output flange to the prop shaft were still there. I found both bolts, one had sheared the other was undamaged so possibly backed out. Prior to this we had run from Key West to Hilton Head under sail, power, and combination without noticing any issues, including unusual vibration.

1) What transmission is on this boat? (can't find in the Hunter manual)
2) Any ideas what might cause this?
3) What is a suitable replacement bolt allow? 316 ok?

 

[JamesG161]

You can find your manual here
HunterOwners.com downloads

Jim...

 

[JamesG161]

It appears you have a 29HP Yanmar. Attached is a new drawing of your engine. Maybe it will help you.
Jim...

 

[flightlead404]

No I have the 40hp 3JH4E, should have included that detail. Found the gearbox - KM35P.

Bolts are 35mm M10x1.5.

 

[seadaddler]

Flange bolts do loose some times and need to be check now and than,happen to me once.

 

[JamesG161]

Try to match the same type metal for your new bolts.
Jim...

 

[flightlead404]

Try to match the same type metal for your new bolts.
Jim...

I have no clue what the current alloy is OR if it is suitable. That one is sheared is potentially evidence that it is not.

 

[JamesG161]

Knowing a bit about Yanmar, my guess is Military spec Stainless Steel.

You can change later if corrosion seen.
Jim...

 

[heritage]

Here is a tutorial on types of high strength bolts:

Using High Strength Bolts for Structural Bolting | The Federal Group USA

Learn about high strength bolts, or structural bolts, and how they are used to connect structural members in a variety of industrial applications.

www.tfgusa.com

.

I have read that stainless steel bolts are typically not as strong as hardened steel ones.

 

[Ralph Johnstone]

2) Any ideas what might cause this?

Angular shaft misalignment would be a first guess. This is not a high stress area.
What is your angular misalignment and what is your flange diameter. ?

 

[flightlead404]

Here is a tutorial on types of high strength bolts:

Using High Strength Bolts for Structural Bolting | The Federal Group USA

Learn about high strength bolts, or structural bolts, and how they are used to connect structural members in a variety of industrial applications.

www.tfgusa.com

.

I have read that stainless steel bolts are typically not as strong as hardened steel ones.

Not a metallurgist, but I've built a few engines (and currently fly, upside down, at low level, in formation behind an engine I built) and know enough about bolts to be dangerous lol. "Strength" is a poorly defined term here I think. Ultimately a bolt with some ductility might be "better" than a harder bolt with possibly higher ultimate tensile strength but more brittle.

I just don't know.

I assume the loads are pulsing shearing loads, but I'm really just guessing.

 

[flightlead404]

Angular shaft misalignment would be a first guess. This is not a high stress area.
What is your angular misalignment and what is your flange diameter. ?

Unsure on alignment issues, have not tried to measure. Looking at the area I'm guessing the bolts are original, the remaining ones look undisturbed.

I recently (Dec, and probably ~100 hrs of motoring ago) had the prop removed, new cutlass bearing, prop "reconditioned" which included some balancing. Engine/drive train was smooth.

 

[Ralph Johnstone]

I assume the loads are pulsing shearing loads, but I'm really just guessing.

Close but no cigar . The loads on the bolts are pulsing tensile loads.

With angular misalignment, one bolt will have only its initial tensile loading at, let's say 12:00 high. As this bolt rotates around 180° to the opposite side (6:00 low) it's tensile load increases due to the angular misalignment trying to pull the flange faces apart on that side. At 1000+ RPM, the pulses soon add up and .................... Houston, we have a failure.

 

[flightlead404]

Close but no cigar . The loads on the bolts are pulsing tensile loads.

With angular misalignment, one bolt will have only its initial tensile loading at, let's say 12:00 high. As this bolt rotates around 180° to the opposite side (6:00 low) it's tensile load increases due to the angular misalignment trying to pull the flange faces apart on that side. At 1000+ RPM, the pulses soon add up and .................... Houston, we have a failure.

Interesting. Without assuming misalignment (which I will check) would the load change to more of a shearing load as each cylinder fires and twists the drive shaft?

 

[Ralph Johnstone]

would the load change to more of a shearing load as each cylinder fires and twists the drive shaft?

If I were a guru with a black cape and a crystal ball, I would say it's unlikely. The engine flywheel keeps things sailing along smoothly and partially stores each piston stroke due to its inertia so little pulsing torque. The flanges are kept from rotating relative to each other due to the large friction force between the contacting flange faces.

 

[smokey73]

It's really hard for me imagine a "shear" of this bolt if others are not also sheared. If this one sheared, I would at least expect the others to have been compromised and all would need to be replaced. One would expect that if enough displacement occurred to shear one bolt it would have sheared all. I would also think that there is some sort of key in the shaft/flange joint to take the shear load.

Are you sure it is a shear failure? With the discussion of shaft misalignment as the cause or a contributing factor it would seem more likely to be a fatigue failure, possibly caused by over-torquing the bolt in the first place when installed, especially if that was the only bolt over torqued. With it over torqued, with misalignment, when the position of rotation is the point when the tensile load was at its max the stress on that over-torqued it could cause "elastic stretching" and when it reached the other point 180 degrees around it would have "relaxed" a little (although still under tension), thus causing a cycling load, in tension, on the bolt which could eventually lead to fatigue failure. Over torquing has been known to cause failure of head bolts on high compression engines where one or more of the head bolts has been over torqued and the cycling of the compression strokes, over time, causes fatigue failure.

Do you have a picture of the broken bolt, including a closeup of the surface at the point of failure (ie clearly showing the break surface)?

 

[flightlead404]

One looks sheared, one looks like it backed out, the other two are in place - did not check torque. I agree it seems odd. I'm replacing all of them, nuts, and washers also with 316.

 

[Ralph Johnstone]

You photo shows two well defined "oyster lines" and is a textbook case of cyclic failure due to tensile stress.

Oyster lines do not usually show in shear stress as they tend to microscopically grind away at one another and produce smoother fracture faces.

That and $1.50 will get you a cup of coffee in any restaurant. The real question here is "what caused the cyclic tensile stress ?" I got two nickels, a dime, and a ball of pocket lint that say's it's an angular shaft misalignment problem. Only an alignment check will give us a few more "maybes" to work with.

 

[Ralph Johnstone]

I'm replacing all of them, nuts, and washers also with 316.

I'd use all carbon steel components "just in case."

 

[flightlead404]

You photo shows two well defined "oyster lines" and is a textbook case of cyclic failure due to tensile stress.

View attachment 206339

Oyster lines do not usually show in shear stress as they tend to microscopically grind away at one another and produce smoother fracture faces.

That and $1.50 will get you a cup of coffee in any restaurant. The real question here is "what caused the cyclic tensile stress ?" I got two nickels, a dime, and a ball of pocket lint that say's it's an angular shaft misalignment problem. Only an alignment check will give us a few more "maybes" to work with.

So possibly over torquing along with misalignment?