Thanks for agreeing with 1 and 2.
I have no problem with fact, no matter who says it.
This, from the guy who thinks a 25% increase in column load is marginal.
Due to the design of the floor connections to the perimeter and core columns, the floors cannot transfer any vertical loads from the perimeter columns to the core columns during any alleged load re-distribution due to heating the floors! What does this mean for WTC2?
This means that you have completely misrepresented NIST's mechanism for load distribution. And you've supported your contention without reference, evidence or calculation.
NIST clearly states on page 297 of NCSTAR 1-6 the actual load transfer mechanisms. It does not rely entirely on the floors to establish load transfer, and it includes an analysis of the hat truss load transfer mechanism (a point that you have conveniently omitted).
According NIST the east wall buckled at the damaged floors around floor 82 and there was load redistribution, i.e. the weight of the undamaged section above carried by the east wall was transferred to the north and south walls and the core columns.
You appear to be referencing 1-6 page 307. It would be helpful for other readers if you would reference your claims, especially when you're summarizing what you think NIST wrote.
However - no load could be transferred from the perimeter columns to the core via the floors.
While this may be true, the load could be transferred via the hat truss, spandrels and other load transfer mechanisms. You are using an incredibly dishonest half truth here.
The trusses cannot transfer any big loads as shear and will not participate in the load re-distribution! (The only load on the floor truss transferred to the columns as shear is the weight of furniture, etc. (20 kgs/m² according NIST) on the truss and its own weight through a very small connection ot the truss to the column.
References? Calculations?
The load on the east wall can only be transferred to the north and south walls via the horizontal bracings keeping the perimeter together sideways at every floor. Either they manage to do that or they shear off ... like the floor connections of the east wall ... and the whole east wall above the buckled section would fall down to the ground! The east wall below the damaged section and the whole tower below the damaged section would stand.
References? Calculations?
Maybe some parts of the north and south walls would also fall down, but the west wall and the core evidently should stand! Quite basic, actually. That's why no steel skyscraper has ever globally collapsed.
Pardon me? No steel skyscraper has ever globally collapsed?
Local collapse of some areas for various reasons, yes.
Such as weakening through heat, sagging of floor trusses and so on?
Compare the building in Oklahoma city,
If I knew absolutely nothing about building design, structural analysis and basic construction, I would compare the WTC towers to the Oklahoma city building. The two structures are not comparable.
where a home made bomb removed the perimeter columns of the front wall at ground level!
I'm missing the part where an airplane smashes into the OK city building.
The whole front wall fell down ... but the remainder of the building remained standing. Reason - the floors did not re-distribute load to the other side of the building.
WHERE DID THE LOAD GO????
So the NIST proposal (without any evidence)
I think you're confusing the NCSTAR with everything you've written in this post.
that global collapse of the whole tower ensues when the east wall first buckles and then collapses is wrong.
I would love to see your analysis, your calculations, your references, your published documents, etc., to prove this.
Only the east wall above the damaged east wall section would fall down,
See above.
i.e. only a local collapse would occur. The core and the west wall should be standing and probably most of the south and north walls. And the whole tower below the damaged floors.
I'm sorry to sound like a broken record, but you're simply restating your original opinion without evidence, calculations or references.
All proposals of the heat weaking the structure all around and the core in the damaged area is just nonsense to confuse local collapse with global collapse.
Your opinion does not matter in this debate.
NIST should be asked why not only local collapse ensued due to some local failures, i.e. only the east wall above the damaged area falling down.
They would probably tell you to look at the extensive FEA they completed, along with the calculations about load distribution, column deflection, and their comprehensive thermodynamic analysis of the fires. Then they would probably ask you why WTC 2 was leaning 8 degrees off plumb before collapse if only local failures were to blame.
But local collapse did not ensue. Suddenly the whole building explodes from the damaged area down to the bottom. What we see on all videos is not global collapse ... that should take much longer time ... but controlled demolition. No doubt about it.
You continue to restate your opinion as fact. That will not work here.
