Tear out capacity of steel plate with holes?
Tear out capacity of steel plate with holes?
(OP)
Hi there,
I am trying to determine if this connection is adequate for the loads that are applied. There is a 50kN force acting on the steel plate in opposite directions in the y axis.
The main fear was that the hook holes were too close to the edge and that they would tear through the end of the steel plate. Either a hook or shackle will be connected to the hole.
I originally did the following calculation but am unsure if it is adequate.
Effective shear area in the plane (thickness of plate * distance from edge of hole to end of plate) * Shear stress of steel ... taking the shear stress of steel as 0.6* yield stress
(50-38/2)* 16* 150 = 74.4 kN. ... Therefore would be OK.
However, I am not confident. Any advice on the calculations would be greatly appreciated.

I am trying to determine if this connection is adequate for the loads that are applied. There is a 50kN force acting on the steel plate in opposite directions in the y axis.
The main fear was that the hook holes were too close to the edge and that they would tear through the end of the steel plate. Either a hook or shackle will be connected to the hole.
I originally did the following calculation but am unsure if it is adequate.
Effective shear area in the plane (thickness of plate * distance from edge of hole to end of plate) * Shear stress of steel ... taking the shear stress of steel as 0.6* yield stress
(50-38/2)* 16* 150 = 74.4 kN. ... Therefore would be OK.
However, I am not confident. Any advice on the calculations would be greatly appreciated.






RE: Tear out capacity of steel plate with holes?
I believe ASME BTH-1 has some useful guidance.
Regards,
Mike
The problem with sloppy work is that the supply FAR EXCEEDS the demand
RE: Tear out capacity of steel plate with holes?
But the detail requires 2x plates - isn't the final stress halved?
The detail does not have a plan view: Are not the two 8 mm plates separated by the thickness of the WF web? If so, then add a third plate (of thickness = webb Th) and use that mid-plate to prevent bending also.
RE: Tear out capacity of steel plate with holes?
@racookpe1978 I believe that is somewhat true. However I used a thickness of 16mm (the total of the two plates) so would've ended up at the same answer. On another note in the equation the 50-38 is not a range of forces in kN it is a measurement in mm considering the diameter of the hole (38mm) and the distance from the center of the hole to the end of the plate (50mm)
There is a plan view of the detail, albeit quite small. It is shown in the 'connection detail' diagram shown above. There is an 8mm gap width between the two plates due to the web thickness. The gap length is 105mm. Should this be a cause for concern?
RE: Tear out capacity of steel plate with holes?
I assume this problem is a continuation, a corner detail, of your earlier OP’s/threads, on a container lifting frame. If you are still using 50kN as a max. corner load, it would seem that you have not paid much attention to some of the earlier comments and suggestions, by some of the other earlier contributors/posters. That corner load should be more than a quarter of the total load, probably at least TL/3. It would also seem that you haven’t bothered to get and read copies of ASME BTH-1, or other comparable documents. They are really important documents/guides for what you are doing. Look for the design of pin plates for this particular detail, but study the whole of the documents. There is much more to consider than just the shear stress (actually it’s a tensile stress on the net section) that you have looked at. The 38mm holes look like a strange dia. selection; they are too small for most hooks and too large for reasonably sized shackles. You should pick the proper shackle size and then make all of the shackles a permanent part of this lifting frame. And, then the shackle holes should only be about 3-4mm larger than the shackle pin dia. I agree with Racookpe1978 in saying that there should be a filler pl. the same thickness as the beam web, and you say that’s 8mm. I disagree with him, given your current double pl. arrangement; in that there is a significant likelihood that the shackle load could be applied to only one of the two pls., and you should design for that. Those two thin pls. are also more likely to buckle. Your two 8mm side pls. are too thin. The sum of the three pls. should be just a little less than the shackle throat width, at the pins, and the three pls. should be welded together at their perimeters so they act in unison. There isn’t much “cost saving in the future” in this detail, one way or another, but it does have to be done right; to be strong enough and cleanly detailed for fatigue and abuse life. I would be inclined to cope the beam flanges, and do a good job of cleaning them up, and then add two side pls. to make up the proper total width. Then weld the side pls. to the beam web, all around. Finally, drill the holes through all three pls. and clean them up, with a nice radius on the hole edges. I don’t particularly like the idea that this lifting frame appears to be bolted together. That’s just another thing that can loosen, and must be inspected frequently.
RE: Tear out capacity of steel plate with holes?