Big Blue's Transformation

[Gary Lewis]

I think that all makes perfect sense now. Your earlier picture showed the three washers (or whatever) inside the snap ring, and the locking hub outside of it. That didn't make sense to me until seeing that your snap ring groove is so far in on the outer axle shaft. So it goes together exactly like the picture: the three washers, the snap ring, and then the locking hub.

And remember, that snap ring doesn't hold ANYTHING in, ever. That inner snap ring holds the axle OUT, keeping the U-joint lined up between the ball joints. (In the earlier, more "normal" design, that snap ring goes outboard of the locking hub assembly and people think it hold the locking hub on. But even there it's the big ring in the ID of the wheel hub that holds the locking hub in. So the inner snap ring is just there to hold the axle out in that case as well.)

So if you stay with your current locking hub you could get those three washers and put it together like it was originally. But that likely won't work with aftermarket locking hubs, so in that case you would leave the three washers and snap ring out. That gives the possibility for the axle to slide in too far so the U-joint doesn't line up with the ball joints. But as I was saying earlier, apparently that really isn't a problem.

I'm having a hard time getting to where you are. I've included the drawing again, albeit reduced a bit in size, so I can try to get my head around it. And, here goes: Parts 11, 12, & 13 are the nuts and washers that go on the spindle, so don't touch the axle. Parts 14, 15, & 16 are said to be "thrust washers", with 14 & 16 steel and 15 plastic. And, 16 is splined so it must engage the splines on the axle. So depending on the ID of the washers they either take up the space between the end of the spindle or the outer nut of the nut/washer/nut combo and snap ring #17. But in either case, the "thrust" is when the axle tries to come in and those washers prevent that.

So, I AGREE! The washers and inner snap ring hold the axle out.

I've heard quite a few people say that MileMarkers are fine, and a lot less money than the Warn Premiums, so it's foolish to spend money unnecessarily on Warns. But again, that's just what I've heard quite a few people say.

My only personal experience with MileMarkers is that's what my '97 F-250 had when I bought it, and one was sloppy-loose, allowing water or whatever to get into the hub. I never really tried to figure out what was wrong with it, but I replaced them with Warn Standards, and then Warn Premiums as I described earlier. So I wouldn't say that I have enough experience to say that MileMarkers are bad, but I don't have any to say they're good either.

For the Premiums, the chrome on the ones on my F-250 started flaking off after a couple of years. I haven't had that before on several different sets, but I'm not thrilled with it on these. But on the other hand, I've dropped the Bronco's front tire off a rock and had the entire weight of the front corner land a Warn Premium on a rock. Several times. And those hubs are holding up surprisingly well. Absolutely no functional issues, and not even as scarred up as they ought to be.

But I will say that easy turning isn't a feature that I'd say Warn Premiums have. None of the ones I've had were terrible, but I frequently can't get a good enough grip on them while wearing gloves (a pretty big issue in a Minnesota winter). That's actually why I got the Warn Standards to begin with. They did turn much easier, and were easy to grab while wearing gloves. But having the one lock itself pretty frequently outweighed that benefit.

Dad's truck has Mile Markers, which I just rebuilt - and powder coated. I wasn't overly impressed with them, but they work fine. Big Blue has Warn Premiums and they work well. I can't say they are easy to turn, but even on the truck they are far easier to turn than just these 3-bolt caps from the Dana 60 are, and that's w/o the caps being on the hubs.

As for the chrome, you may have gotten ones that weren't done well as the Warns on BB look great after 2 1/2 years I've had the truck plus whatever Vernon had them.

All in all I think I'm leaning heavily to the Warn Premiums. But keep those cards and letters coming, please.

[Steve83]

But the Torque King illustration, and I don't know where they got it...

It's possible they made it, using pieces from other diagrams & some of their own. That's how I came up with this one:

https://supermotors.net/getfile/933974/thumbnail/slidingbolts.jpg

...Warn makes a LOCKING HUB SPINDLE NUT CONVERSION KIT...

They market it, just like TorqueKing & everyone else. But most are made by Dana/Spicer.

...snap rings, this is the one I was talking about.

#17 is either drawn wrong for that location, or shown in the wrong location for how it's drawn. It should be the wide C (#19) in my diagram just above, and in the bottom center of my photo from before.

https://supermotors.net/getfile/72047/thumbnail/b35.jpg

The one in their diagram is drawn as the main retainer ring for the lock body in this & the NEXT pics:

https://supermotors.net/getfile/881404/thumbnail/sealbridgeclip.jpg

And no one has ever given an example of a failure to say that it does.

One thing that does come to mind is that the U-joint will be self-centering...

...until it DOESN'T self-center. Then something like this will happen:

https://supermotors.net/getfile/809855/thumbnail/100703xbroke.jpg

Ford has teams of engineers and technical illustrators to produce accurate documentation.

Yet in the ~3 months I worked at the dealership, I submitted at least 3 corrections to the service manual and one to a safety recall. All were adopted, proving that the documentation had errors before.

...if I want them sealed.

I think you're going OCD about it. It'll never be "sealed". It wasn't sealed when it was designed or built. Or when it left the factory. There's no reason to think you can seal it 40 years later. I'd put it together, drive the hell out of it, and follow the "severe duty" maintenance schedule. It'll be fine.

...there won't be any pressure on the o-ring if I do.

Add a Teflon washer against the metal. Throw it in your powdercoat oven to melt the Teflon onto the metal semipermanently. That'll tighten up the O-ring and make it last longer.

The washers and inner snap ring hold the axle out.

The problem is that the diagram isn't drawn to scale. 10, 12, & 13 should be larger. 10 holds 9 against 8 against 7 on 5. 12 prevents 10 from turning. 13 holds 12 against 10. 14, 15, 16, & 17 should be smaller. They hold 1 inside 4 & 5 against 2 & 3. 1's outer end is supported by the bearing inside 18. 18 is held in 8 by 19. 21 holds 20 on 8 by pulling against 18 & 19, sealing the outer end of 8. 6 seals the other end of 8 to 5.

...Mile Markers, which I just rebuilt - and powder coated. I wasn't overly impressed with them, but they work fine.

I ran MMs for years without problems. It wasn't until just before I rebuilt the Bronco (from bullnose to aero) (when I started driving it more-abusively) that they shattered a few times.

[Gary Lewis]

But the Torque King illustration, and I don't know where they got it...

It's possible they made it, using pieces from other diagrams & some of their own. That's how I came up with this one:

https://supermotors.net/getfile/933974/thumbnail/slidingbolts.jpg

...Warn makes a LOCKING HUB SPINDLE NUT CONVERSION KIT...

They market it, just like TorqueKing & everyone else. But most are made by Dana/Spicer.

...snap rings, this is the one I was talking about.

#17 is either drawn wrong for that location, or shown in the wrong location for how it's drawn. It should be the wide C (#19) in my diagram just above, and in the bottom center of my photo from before.

https://supermotors.net/getfile/72047/thumbnail/b35.jpg

The one in their diagram is drawn as the main retainer ring for the lock body in this & the NEXT pics:

https://supermotors.net/getfile/881404/thumbnail/sealbridgeclip.jpg

And no one has ever given an example of a failure to say that it does.

One thing that does come to mind is that the U-joint will be self-centering...

...until it DOESN'T self-center. Then something like this will happen:

https://supermotors.net/getfile/809855/thumbnail/100703xbroke.jpg

Ford has teams of engineers and technical illustrators to produce accurate documentation.

Yet in the ~3 months I worked at the dealership, I submitted at least 3 corrections to the service manual and one to a safety recall. All were adopted, proving that the documentation had errors before.

...if I want them sealed.

I think you're going OCD about it. It'll never be "sealed". It wasn't sealed when it was designed or built. Or when it left the factory. There's no reason to think you can seal it 40 years later. I'd put it together, drive the hell out of it, and follow the "severe duty" maintenance schedule. It'll be fine.

...there won't be any pressure on the o-ring if I do.

Add a Teflon washer against the metal. Throw it in your powdercoat oven to melt the Teflon onto the metal semipermanently. That'll tighten up the O-ring and make it last longer.

The washers and inner snap ring hold the axle out.

The problem is that the diagram isn't drawn to scale. 10, 12, & 13 should be larger. 10 holds 9 against 8 against 7 on 5. 12 prevents 10 from turning. 13 holds 12 against 10. 14, 15, 16, & 17 should be smaller. They hold 1 inside 4 & 5 against 2 & 3. 1's outer end is supported by the bearing inside 18. 18 is held in 8 by 19. 21 holds 20 on 8 by pulling against 18 & 19, sealing the outer end of 8. 6 seals the other end of 8 to 5.

...Mile Markers, which I just rebuilt - and powder coated. I wasn't overly impressed with them, but they work fine.

I ran MMs for years without problems. It wasn't until just before I rebuilt the Bronco (from bullnose to aero) (when I started driving it more-abusively) that they shattered a few times.

I was with you about melting the Teflon until I looked up its melting point and read this in The PTFE Handbook, which sure looked familiar as I used to work for DuPont:

Teflon® PTFE resins enter into a gel state at 327°C (621°F), which is not conducive to melt flow...

My oven can reach 500 °F, but I doubt it can make 600 °F. So I don't think that is going to work, at least not with the oven.

And while I agree the hub isn't ever going to be "sealed", right now I'm not 100% sure it would keep rain out due to the etching at that spot and the material I've removed. But, one approach I'd not considered is a heavy layer of powder on that land. I could mask the cap and shoot epoxy powder in there. Powder doesn't really flow out and "level" things, so the underlying texture is seen. But I could then machine it smooth and then put another layer of powder on top of that as a finish.

Or I could buy some better lockouts and use my limited time elsewhere. I think I'll talk to my better-half about this and get her advice.

[Steve83]

I was with you about melting the Teflon until I looked up its melting point and read this in The PTFE Handbook, which sure looked familiar as I used to work for DuPont:

Teflon® PTFE resins enter into a gel state at 327°C (621°F), which is not conducive to melt flow...

My oven can reach 500 °F, but I doubt it can make 600 °F. So I don't think that is going to work, at least not with the oven.

And while I agree the hub isn't ever going to be "sealed", right now I'm not 100% sure it would keep rain out due to the etching at that spot and the material I've removed. But, one approach I'd not considered is a heavy layer of powder on that land. I could mask the cap and shoot epoxy powder in there. Powder doesn't really flow out and "level" things, so the underlying texture is seen. But I could then machine it smooth and then put another layer of powder on top of that as a finish.

Or I could buy some better lockouts and use my limited time elsewhere. I think I'll talk to my better-half about this and get her advice.

I think an extra dab of silicone grease would keep rain out.

[Gary Lewis]

I think an extra dab of silicone grease would keep rain out.

I think I've worked out a buy-back from Brandon/Bruno2 of the Warn Premiums that came in the stash with Big Blue. They were marked "May be wrong size", and obviously were as they are the 38826's that are for a D60. Brandon bought them but hasn't used them, so I'll buy them back.

In addition we are discussing a price on the whole D44HD front end off Big Blue.

[ArdWrknTrk]

I think I've worked out a buy-back from Brandon/Bruno2 of the Warn Premiums that came in the stash with Big Blue. They were marked "May be wrong size", and obviously were as they are the 38826's that are for a D60. Brandon bought them but hasn't used them, so I'll buy them back.

In addition we are discussing a price on the whole D44HD front end off Big Blue.

Remember, Janey's an enabler....

Glad you have a pair of hubs.

I would probably have filled the pits with JB Weld or something.

And even better that you might sell the D44 on to Brandon.

One more piece of this complex equation solved.

[Gary Lewis]

Remember, Janey's an enabler....

Glad you have a pair of hubs.

I would probably have filled the pits with JB Weld or something.

And even better that you might sell the D44 on to Brandon.

One more piece of this complex equation solved.

Yes, she is. And I forgot to say that Janey said "Do it right. Get new hubs." And with that she authorized the anticipated $300 expenditure.

But she was happy that it'll probably be less than that, and that I may sell the D44HD.

Oh, and the problem with JB Weld is that I don't know that it would stand up to powder coating. Perhaps I could have used it after PC'ing the rest of the hub?

[Steve83]

...JB Weld is that I don't know that it would stand up to powder coating.

It'll stand up to much more. But it won't TAKE powder because it's not electrically-conductive, so the powder won't be attracted to it.

Perhaps I could have used it after PC'ing the rest of the hub?

I don't know how well it would stick to glossy powder; I don't think I'd trust it on flat powder, either. But it probably won't hurt anything to try.

[Gary Lewis]

...JB Weld is that I don't know that it would stand up to powder coating.

It'll stand up to much more. But it won't TAKE powder because it's not electrically-conductive, so the powder won't be attracted to it.

Perhaps I could have used it after PC'ing the rest of the hub?

I don't know how well it would stick to glossy powder; I don't think I'd trust it on flat powder, either. But it probably won't hurt anything to try.

All of this explains why I wanted new lock-outs: time, or the lack thereof.

I do believe I could have fixed the original hubs. But it would have been a time-consuming process. For one, just getting the JB Weld in there and machining it back smooth would have been a lengthy process. Here's one approach to the whole project:

 

1. Media blast the whole thing to provide tooth for the powder & JB Weld to grab
2. Mask the cap to keep powder out of the innards as well as the o-ring land
3. Powder coat the cap
4. Insert a tube of some kind through the hub that will keep the JB Weld on the land itself. But the tube has to be out of a plastic that JBW won't stick to. Or it could be sacrificial, so needs to be easily machined.
5. Apply the JB Weld
6. Machine the land back smooth

One of the issues I didn't mention before is that the cap I worked on isn't concentric. Said another way, when I mount it on the chuck of the lathe there's runout in the center, meaning at the hole where the dial and o-ring go. And since there are several rough spots on the land, I'd want to put JB Weld all around on the land so when I machine it the hole is concentric with the rest of the cap. And that's just another example of how time-consuming this would be.

So, while it can be done it isn't where I want to spend my time. I really want to use Big Blue for some overlanding. Janey has graciously agreed to go with me on a trip to Colorado when I get the truck together. And our son wants to go on trips, and even got me some equipment for such a trip for my recent birthday and Father's Day. But it remains to be seen if he can find the time to do it.

However, since I've just turned 72, time is of the essence! I want Big Blue back on the road ASAP so I can both use him as well as get back to Dad's truck. And the clock is ticking......

[Steve83]

All of this explains why I wanted new lock-outs: time, or the lack thereof.

I do believe I could have fixed the original hubs. But it would have been a time-consuming process. For one, just getting the JB Weld in there and machining it back smooth would have been a lengthy process. Here's one approach to the whole project:

 

1. Media blast the whole thing to provide tooth for the powder & JB Weld to grab
2. Mask the cap to keep powder out of the innards as well as the o-ring land
3. Powder coat the cap
4. Insert a tube of some kind through the hub that will keep the JB Weld on the land itself. But the tube has to be out of a plastic that JBW won't stick to. Or it could be sacrificial, so needs to be easily machined.
5. Apply the JB Weld
6. Machine the land back smooth

One of the issues I didn't mention before is that the cap I worked on isn't concentric. Said another way, when I mount it on the chuck of the lathe there's runout in the center, meaning at the hole where the dial and o-ring go. And since there are several rough spots on the land, I'd want to put JB Weld all around on the land so when I machine it the hole is concentric with the rest of the cap. And that's just another example of how time-consuming this would be.

So, while it can be done it isn't where I want to spend my time. I really want to use Big Blue for some overlanding. Janey has graciously agreed to go with me on a trip to Colorado when I get the truck together. And our son wants to go on trips, and even got me some equipment for such a trip for my recent birthday and Father's Day. But it remains to be seen if he can find the time to do it.

However, since I've just turned 72, time is of the essence! I want Big Blue back on the road ASAP so I can both use him as well as get back to Dad's truck. And the clock is ticking......

Again: put it together, grease the locks, and enjoy. After driving through deep water, service the hubs as recommended. If you find them dry, you'll know the grease is working. If they get more contamination than you like, replace them THEN (after a few maintenance cycles).