my analysis of steel cantilever beam - anchoring
my analysis of steel cantilever beam - anchoring
(OP)
My assumptions:
a) axis of rotation is approx. around the lowest row of anchors
b) only the upper two rows of anchors (total 4) are in tension, the rest are not considered when calculating tension
c) shear force V is equally destributed among anchors
My questions:
1) how do you determine a participating width (b1 in picture) of tension diagonal (in additional vertical steel plate)?
2) how do you control a web of steel beam in tension - again what participating width do you take (b2 in picture)?
3) I calculated tension force in diagonal from force in upper row of anchors as shown bellow - is this OK?
4) I dont know exactly how should I control bottom flange in comppresion?
Id appreciate some comments on my assumptions and answers on my questions.
Tnx in advance.
Bye.

a) axis of rotation is approx. around the lowest row of anchors
b) only the upper two rows of anchors (total 4) are in tension, the rest are not considered when calculating tension
c) shear force V is equally destributed among anchors
My questions:
1) how do you determine a participating width (b1 in picture) of tension diagonal (in additional vertical steel plate)?
2) how do you control a web of steel beam in tension - again what participating width do you take (b2 in picture)?
3) I calculated tension force in diagonal from force in upper row of anchors as shown bellow - is this OK?
4) I dont know exactly how should I control bottom flange in comppresion?
Id appreciate some comments on my assumptions and answers on my questions.
Tnx in advance.
Bye.







RE: my analysis of steel cantilever beam - anchoring
I would take the point of rotation as level with the bottom flange.
RE: my analysis of steel cantilever beam - anchoring
#4 is often controlled by bearing on the concrete. It is a quadratic equation, but you can pretty easily solve for the point of rotation making some simple assumptions on the distribution of reactions to the rows of bolts. I would make my life easier and assume the bottom row of bolts take all the shear (if it can), and use the remaining rows to handle the tension. It would behoove you to extend the bearing plate a little below the beam instead of stopping it flush.
RE: my analysis of steel cantilever beam - anchoring
I dont think its conservative to take axis of rotation aroun bottom flange. In reality there has to be some compression zone in the are of bottom flange in my opinion.
Id really like to hear how do you guys consider participating width of a tension diagonal and beam web.
Id really apreciate if someone can direct me / post some worked examples of stuff like this.
tnx
RE: my analysis of steel cantilever beam - anchoring
I think if you're going to make this assumption, then the bolts you're assuming aren't taking shear should at least have slotted holes. Otherwise, they will take some of the shear whether you want them to or not. I've seen other engineers use this assumption before, and I don't agree with it...you can't pick and choose which anchors take shear and which don't, unless you detail the connection appropriately.
It's conservative to only account for tension in the top anchors, and they will take most of the tension anyway...but if you're having a hard time getting anchors to work, then I would account for the actual tension distribution. Have you tried putting the anchor design into PROFIS or similar software? Might be useful as a comparison to your hand calculations if nothing else.
For the width of your diagonal tension - Boldgett covers this for a stiffener in compression (section 5.3, Design of Welded Structures). If you don't have access to this text, let me know and I will describe what he uses.
RE: my analysis of steel cantilever beam - anchoring
Unfortunately I dont have access to text you suggested. If you find time, Id appreciate if you can describe a method.
regards
RE: my analysis of steel cantilever beam - anchoring
Perfectly valid assumption, and yes of course it requires detailing just like every other assumption made in design. It only makes sense to limit shear on the anchors with the most tension.
RE: my analysis of steel cantilever beam - anchoring
RE: my analysis of steel cantilever beam - anchoring
My answers:
1) Twice the bolt-hole-to-web distance. Assumes end plate "Stub Tee" can carry loads back to stiffener.
2) Beam shear design issue. Put in stiffeners if you are worried about diagonal tension/compression. I think if you manage to cripple the web your connection is working ok :)
3) I would use top 4
4) Controlled by bearing surface crushing. It's the same concept as reinforced concrete compression block. As noted you can extend the plate a bit deeper past the beam and get a bigger lever arm.
RE: my analysis of steel cantilever beam - anchoring