Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
(OP)
I have a detail (see below) where I have a 250RHS resting on a 150SHS corbel, which is itself attached to a 406CHS.
I am looking at the tubular joint check (RHS brace to CHS chord). I am looking for some guidance into the joint capacity where the incoming brace is eccentric to the chord centreline. I normally use CIDECT for my joint checks. However, CIDECT deals with joints where the centrelines intersect, presumably this is because all the physical testing is based on this arrangement.
API RP2A allows an eccentricity of D/4 (although this is specific for CHS to CHS joints) but offers no guidance if you exceed D/4.
Is anyone aware of any research or guidance on the capacity of tubular joints with an out of plane offset in the incoming brace?

I am looking at the tubular joint check (RHS brace to CHS chord). I am looking for some guidance into the joint capacity where the incoming brace is eccentric to the chord centreline. I normally use CIDECT for my joint checks. However, CIDECT deals with joints where the centrelines intersect, presumably this is because all the physical testing is based on this arrangement.
API RP2A allows an eccentricity of D/4 (although this is specific for CHS to CHS joints) but offers no guidance if you exceed D/4.
Is anyone aware of any research or guidance on the capacity of tubular joints with an out of plane offset in the incoming brace?







RE: Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
RE: Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
My query relates to the fact the joint capacity design formula from CIDECT assume the brace is positioned central to the chord so the loads are applied in the middle of the chord ring. Hence for the ring bending, the stiffness of the ring either side of the brace is the same.
In this case, because the brace offset the face of the CHS cannot bend equally either side of the brace. The lower compression flange of the SHS frames is transferring load into a tangent point so is very stiff, whereas the top tension flange is applying load close to the middle.
So are the design formulas applicable?
Hence I was looking to see if anyone knew of any background info on this.
RE: Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
RE: Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
OPTION A
add rings and analyze rings for applied loads ...superimpose stresses from loading 1 & 2 to obtain max stress in rings.
OPTION B
move corbel to centerline of CHS as OP indicated that there was a solution for this case in CIDECT, then develop conn of SHS to RHS....this conn is less complicated..
ofcourse the CHS should be analyzed for the imposed loads locally and globally, if req'd..
sorry for the attached pages being upside down, although ,if the OP is in Australia, then it should be no problem...
RE: Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
SAIL3, Thanks for taking the time to put together a sketch, you have shown the loads carried by ring internal shear forces, Would there also not be a bending component developed by the force couple from the moment?
RE: Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.
I have attached a revised page 1 showing the correct location of P on the rings and it's radial and circumferential components.....
RE: Tubular Joint RHS to CHS. Out Of Plane Brace Eccentricity.