Shear Studs Welding enquire
Shear Studs Welding enquire
(OP)
Hello Guys…
I’m using shear studs for an embedded plates (Steel to pre cast concrete connections) but it happens that the beams have high moments end forces. So I have to use large diameter shear studs (up to 1’’ or more).
The problem here is they told me that the welding gun available in the shop can weld up to ¾’’ only. So for larger stud diameters they will use normal welding (maybe fillet I’m not sure).
So my question is: Is it ok to use other kinds of welding the diameter of studs other than the Nelson gun? Or is it like the gun guarantees full bonding between the plate and the studs?
And in case if it is not OK. What is my alternative option? I checked the capacity of the regular anchor rods in tension and its way less than the shear studs capacity. So it is not an option in my opinion.
Your help would be so much appreciated.
I’m using shear studs for an embedded plates (Steel to pre cast concrete connections) but it happens that the beams have high moments end forces. So I have to use large diameter shear studs (up to 1’’ or more).
The problem here is they told me that the welding gun available in the shop can weld up to ¾’’ only. So for larger stud diameters they will use normal welding (maybe fillet I’m not sure).
So my question is: Is it ok to use other kinds of welding the diameter of studs other than the Nelson gun? Or is it like the gun guarantees full bonding between the plate and the studs?
And in case if it is not OK. What is my alternative option? I checked the capacity of the regular anchor rods in tension and its way less than the shear studs capacity. So it is not an option in my opinion.
Your help would be so much appreciated.






RE: Shear Studs Welding enquire
In tension, you're almost always governed by the breakout capacity of the concrete rather the tension capacity of the anchor. Keep an eye on that.
I like to debate structural engineering theory -- a lot. If I challenge you on something, know that I'm doing so because I respect your opinion enough to either change it or adopt it.
RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
AISC "Modern Steel Construction" magazine has an article on how to properly specify weld studs for use with the drawn arc stud welding process in structural applications.
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RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
Slide thanks for the article.
I know the anchorage checks (Breakout and Pullout) will govern but in my case the concrete failure is out of the company's scope. So my concern is only the Anchors capacity and the embedded plate of course. They are telling me to use regular bolts like (A325 or G8.8) as anchor rods instead of shear studs since they have higher tension capacity. Is that Okay?
As far as I know these bolts are intended for steel to steel connections only.. what's your thoughts guys?
RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
If you have to use 1" shear studs to get the tensile capacity required, I can guarantee that the concrete will fail first.
You gave neither the thickness of the concrete or the length of the studs, so we are guessing at your detail.
There is a reason that shear studs are called "shear studs". They are for shear, and not for making moment connections of steel to concrete.
RE: Shear Studs Welding enquire
The concrete breakout fails at this detail but it will be sent to the concrete designer to make a special reinforcement since the concrete elements are not our scope.
Note: concrete column dimensions are (300x1000) mm and not (300x400) mm
RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
I thought this forum is about spreading the knowledge and helping each other!!
RE: Shear Studs Welding enquire
The forces are obviously substantial to warrant this many shear studs in your design. I guess my first concern is what are the forces that are going to this connection? At first blush, it seems impossible the concrete designer will be able to take these forces.
RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
Insensitive stuff removed...
Sure hope you can get concrete and ties into the column; for the moment developed you will have a lot of reinforcing for the relatively small column.
Without compromising the strength of the
wallcolumn, you should be looking at a pinned end connection and design only for shear, or something of that ilk.Dik
RE: Shear Studs Welding enquire
Just looking at it, I imagine the only studs which will activate (before the entire thing zips apart) are the rows of studs either side of the top and bottom flanges. I can't imagine that the other eight rows of studs do much at all, except to carry the small shear reaction.
Also, if you start sketching in the bars in the column (to scale) you will find things very, very congested. Taking 324 foot kips into that small column will require some pretty heavy reinforcement, leaving no room for your studs. For example, 1/2 the column width is 150mm. Subtract 80mm for the first stud spacing and 50mm for rebar cover leaves you 20mm. Subtract 1/2 the stud width leaves you 300/2-80-50-12= 8mm to place a rebar which probably wants to be a #10bar (32mm) or larger. It violates the time-space continuum.
The studs are too close together to fully activate each stud. Your grouping of studs 3 across will hardly have more capacity than a double row of studs, and placing the studs so close together vertically reduces the capacity of the individual studs significantly as well.
Depending on the seismic zone, you have other issues to consider, such whether the code even permits such a home-grown detail.
The welds appear to be just partial penetration - I would be tempted to provide full-pen welds no matter what the force.
It just doesn't look right. It looks like something someone drafted rather than engineered and designed.
RE: Shear Studs Welding enquire
dmoench01:
I did not do neither the member Design nor the Concrete column design for this project. My responsibility is the steel to concrete connection only. And Yes the loads are huge on the member ends (Up to +1100 K.ft).
chicopee:
Nobody reviewed the details yet.
dik:
As far as I know, the columns are reinforced and have ties. but I don't know if a supplementary reinforcement will be adequate to this huge tensile loads on the concrete.
JLNJ:
I did the analysis using PROFIS (a software from Hilti), and all studs take some tension except for the bottom row, Check attached.
Yes. The studs are very close to each other but I had to use 3 studs per row to cover the tensile load that comes from the moment ( with minimum spacing vertically and horizontally). I know this will reduce the concrete capacity in Breakout but I'm restricted by the col. geometry. Another reason for putting the studs too close to each other is that the bearing capacity of the embedded plate reduces significantly when the cantilever length increases (Per Design Guide 1).
After all, it seems that I have to change the whole concept. this is not working!!
Maybe changing the columns to encased columns or just steel columns ? I don't know if its can be done.
RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
Like everybody said earlier, this detail will not work.:/
RE: Shear Studs Welding enquire
Be careful when using Profis. A rigid base plate is not necessarily a conservative assumption for a case such as this.
I believe Profis just determines the resultant tension force location and proportions the bolt force based on distance from the resultant. Your forces might be double or triple those "calculated" by Profis.
RE: Shear Studs Welding enquire
The thickness used in this was 1.18'' and was checked due to flexural yielding due to tension and bearing in the minor axis. Is that not enough to consider the plate '' rigid enough''?
RE: Shear Studs Welding enquire
The great Hardy Cross said "strength is essential but otherwise unimportant".
RE: Shear Studs Welding enquire
RE: Shear Studs Welding enquire
I would consider it rigid enough. For strong axis bending in the cross section, the web of the supported member itself stiffens the connection plate and makes it rather rigid. It's not as though it's a concentrated moment located at the middle of an isolated, bendy plate.
Either the connection works or it doesn't. I see no reason that the numbers cannot be our definitive guide on that. Plenty of things have been moment connected to concrete via stud groups. I'll usually switch to DBA's on the tension side but that's mostly just a personal preference. And no, based on the information available, I do not expect that the connection would work to develop anything close to the plastic moment of the cross section. A designer is never born with intuition however. It has to be developed through trial and error. Or passed on from those with more experience.
I like to debate structural engineering theory -- a lot. If I challenge you on something, know that I'm doing so because I respect your opinion enough to either change it or adopt it.