Sure. For starters I would question this.....
Sure, I made a mistake and posted figure 11-14, which is not the one corresponding to the seat at column 79, instead of 11-15, which is the right one, but the rest of the message doesn't change. I've deleted the wrong figure.
Can you address my post now? I'll repeat it for you now with the right figure.
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As for where the column 79 debate here, the question is now can the column experience lateral movement yet still retain orthogonal support via th
e 2 undamaged connections at the west and south faces.
No, that is not "THE" question.
NIST ran three FEA simulations. The first one is a LSDYNA analysis to check what failure modes should be accounted for. That analysis covered A2001, the five beams framing into it, the associated columns, the shear studs, and the concrete slab and metal deck.
Then a 16-floor ANSYS simulation to determine global failure initiation, which covered a good part of the east half of WTC7, where the temperatures were input from their fire simulator. That's the one where A2001 walked off.
And finally, a full 47 story model in LSDYNA to simulate collapse progression after the initiating event, which is of no interest at this point.
This is how they modelled the connection of A2001 to C79 in ANSYS, taking into account the results of the preliminary LSDYNA analysis:
I've highlighted in yellow the control element they used to model walk-off, named COMBIN37. NIST claims their analysis showed that that element reported walk-off after 4 hours of fire, and then they proceed to interpret the results, attributing the major part of them to beam expansion, yet reporting column displacement to the east at the same time, and enough of it to break bolts in other floors.
[ETA] So as a matter of fact, NIST is claiming that the ANSYS simulation they performed showed that control element COMBIN37 reported a walk-off, by whatever means. Factors that I can think of that could have influenced it include pushing of A2001 to the west by the beams to its east, displacement of the column to the east by the girder to its west, and leveraging on A2001 that caused its end to move more than the element that pushed it. There may be others that I am missing, but that's not the point.
The point is that they say that in the simulation, that element reported walk-off, by whatever means. [/ETA]
Now "THE" question is, what
exactly are you questioning? Here are some options that come to mind, but maybe it's none of them so you tell me:
- The results of that simulation. That would implicitly mean blaming the ANSYS authors for making a faulty program that behaves unrealistically.
- The setup of the simulation itself. But I don't think that's the case, because according to NIST's reporting of the status of the connections and to what you're arguing, the column was perfectly held in place preventing it from displacing east, therefore the inputs to ANSYS were good and showed the connections pristine and able to hold the column (let's disregard for now the mobility of girder A2002, which you don't account for).
- NIST's reporting of the results of the simulation. That would mean you're saying NIST lied about the output of ANSYS, and that element COMBIN37 (the one highlighted in the picture) did actually not report walk-off but NIST said it did.
So what is it you're questioning, gerrycan?
