I love it! I do have a couple of question though:
You ended up with really thick tubes correct?
How much clearance did you leave between the OD of the 14 bolt tube that you turned and the ID of the SD housing that isn't perfectly machined?
Was it hard to get them seated all the way together?
Did you consider boring out the factory ford tube inside the knuckle so it would slide over the 14 bolt tube and weld that in place?
Seems like a lot of work to end up with really thick wall axle tubes that will likely still get a truss to weld link mounts too. I love this build and all the out of the box old school, improve upon OEM parts approach!!!
This is gonna be long, but hopefully makes sense...
The 14b tubes were turned to 3.04" OD. In reality, that's about a +/- 0.005" tolerance in this case.
The SD tubes are about 3.05" ID. About +0.005/-0ish but they're not perfectly clean inside, so that's an "about that much".
The remaining 14b tube stubs are around 2.6something ID for much of the length, so a little over 0.120 wall. 14b axles have swedged tubes, so they neck down to 2.22ish ID from about an inch out from the casting, to the adjuster nuts.
Timing wise, there's a lot of "doing this but I'm not ready to finish the job" going on here; it's the whole project, not just the rear axle. I don't have a setup kit or inner shafts for this axle yet, but the lathe time was available this weekend, so I took it when I could.
I have not yet cut the SD tubes to length. I have test pushed them on, they slide smooth about halfway down before the drag gets to where I go "I'm not ready to go this far yet". There's about 6" of tube stub on one side and about 11" on the other side of the 14b. They were cut at the inboard side of the leaf spring perches. I may cut the 11" down farther before pushing the SD tubes on.
To your "seems like a lot of work", yes. There's more to the madness of my assembly process that makes sense to me. Also sequencing of "I can do this if I do it before that, but if I do that first, I won't be able to do this".
You are also correct on the "will be getting a truss and a basher bar and and and ...."
My last rear steer axle under this car, is now under my jeep. I screwed up building it and ended up with excess rear caster, so once bitten twice shy, I'm trying to avoid that. As such, I need to be able to set pinion angle relative to caster, for a rear axle that needs to be holding up the car in question, that doesn't have a transfer case right now. It's a mess of out of order.
The 14b will be shaved, and as I am lazy and like to use power tools, that'll be done in the mill. Plan there is to match(ish) it to a cover that I don't have yet, but because of weight and size, I want to do that milling on an empty center section with as minimal of tube on it as possible.
After that, tubes can go on, but won't be welded in place. They may end up tacked to a basher bar, may just get ratchet strapped c to c. That way I can rotate for caster/pinion later.
I can at least tack on shock and lower link tabs as the shock angles will be relative to caster. Uppers need to be set to clear diff, so chances are, they'll end up tacked to a link bridge/truss that's anchored to the center and not the tubes.
Once the housing is more or less under, I can set it at ride height with the transfer case in (need engine/trans in by then as well) and set pinion angle to the driveshaft. After that, I can burn the tubes to the center, figure out the link bridge and bump stop locations to not conflict, fully hang the upper links to clear the diff, hang the basher bar to have the steering cylinder clear the diff and fuel tank, etc.
Net is that I'm trying to set up to be able to spin the pinion to angle after the axle goes under the car to deal with packaging concerns around having never had this flavor of rear axle under this chassis.
Specifically for rear steer axles, Jesse Haines was running 5-6° Negative caster explicitly for the reason I stated; however, I believe there is benefit to be had running significantly more. How much more, I have trouble saying since I haven't messed around much with rear steer, but I would think 15° (negative) would be a good starting point.
