Sekwahrovert:
This is a problem that would probably be interesting to study a bit with FEA. I would like to study how the loads and stresses are distributed and flow btwn. the bolts, plates and pipes, with the slightly different arrangements. Understanding that welds and sharp changes in direction always show hot spots, but it’s the general stress flow and stress level that I’d like to study. Otherwise, some food for thought off the top of my head....
1. I would want to know more about your fabricating equipment and methods because they will play into the difficulties of each detail. The right beveling and weld prep. equipment makes detail #1 pretty clean and easy. A roller system is a must for pipe girth welds and automation certainly improves productivity and quality. I don’t much like backer bars, they are a necessary evil in many instances. On big enough pipe, I’d sooner back gouge and weld from both sides, with a reinforcing fillets.
2. Detail #1 is easy to fit-up becuase the i.d’s. of the pls. is at least several inches smaller than their mating pipe, maybe they are solid pls., not annular. They will tend to distribute stresses around the pipe at any concentrations, because of their larger size, (width, o.d. minus i.d.)/2.
3. Detail #2 may be a bit of a fit-up problem as a function o.d. and round vs. oval tolerances of your pipe supply. I’d want to study that a bit, and I’d like nice snug fit (no big gaps) at the fillet roots. You also have two different welding set-ups for the two fillet welds. And, I’m pretty sure more filler metal and weld time for the same weld cap’y. This detail takes end pl. loads and stresses directly into the pipe, and has some (causes some) tensile stresses perpendicular to and across the root of the outside fillet, not a good condition. You will most certainly want a larger fillet for the outside weld. The inside fillet is fairly much less loaded.
4. Larger differences in pipe o.d. will complicate the analysis and should be studied with the FEA work. Do the same study, varying only that o.d. difference, to see what that does.
5. Stiffeners are a tried and proven reinforcement for some of these joints, but they do take the loads from the end pls. directly up into the pipe, and that’s good. But, they also have their own complexities and stress concentrations. A thicker end pl. is certainly cheaper than a bunch of stiffeners and their application.
6. This is probably one of those details that we Structural Engineers like to beat to death, without ever coming to a certain conclusion. Keep it clean, of high quality workmanship, and then whichever works best for your shop is probably pretty good.
