You have impressively failed to grasp the nature of structural collapse or, consequently, the mechanisms which would cause structural collapse.
As far as I can tell, you make a number of fundamental (and mistaken) assumptions in support of your hypothesis;
- That the external envelope was self supporting and can be meaninfully compared to a cage-type structure. In particular you believe that the floors played no part in stabilisation of the envelope against buclking failures. This is just plain wrong. You've been challenged to post caluclations to prove your case, but have refused.
- Having finally accepted that steel is susceptible to fire induced failure, you have suggested that localised collapse would result in redistribution of loads to adjacent structural members and hence no more than localised failure. However this is also blatantly over-simplistic, assuming as it does that these adjacent members have sufficient capacity to carry the new loads - many of which will, for example, follow markedly different load paths. If you want to argue it, you're going to have to post some (wait for it) calculations.
- You then go on to argue that the design capacity of the lower part of the building had sufficient excess capacity to withstand the collapse of the upper section. This too shows an astounding ignorance of structural design. Firstly, the new load is dynamic in anture resulting significant orders of magnitude greater than normal static loadings. Secondly joints, members, etc. are designed to accommodate credible load paths; just because a joint can support a certain vertical load does not mean that it can support the same load horizontally as the structure collapses.
- The final aspect of your argument I'd like to focus on is your apparent believe that, because the collapse resulted in a crush-up/crush-down failure, the debris field would not have caused failure despite being of similar mass. 30,000t is 30,000t. This is something so simple that even a child could see it, and there is little hope if you cannot grasp that concept.
Ah, there we go again.....all the experienced engineers in the world are wrong except you. NIST, Bazant, Greening, Arup, Edinburgh, Sheffield, the authors of the Eurocodes, NCE, everyone. All wrong. All greenhorns. Except you.
And yet you seem to believe that the NIST model requires 280 simultaneous failures. You believe that the building fell at free fall speeds. Wrong wrong wrong wrong wrong.
You're still running away from my challenge re: awards. Scared?
Says the alleged naval architect.
Subject is collapse. The floors, secondary structure transmitting load to the primary load carrying columns, are still attached. Evidently, as long as they are attached/bolted to the columns, they can also transmit horizontal windloads on one wall to another and prevent transverse movement of the columns. Nobody argues about that. Clear from the article.
And evidently heat affects the properties of the steel. 500°C and yield is reduced a little. Clear from the start! Strange that you cannot quote properly!
But heating some columns in a fire does not cause free fall of an upper block! The upper block and the lower structure are still attached by the alleged failed columns (none seen on any video) and gravity does not produce free fall of connected parts!
Gravity will only deform the alleged failing columns due fire. No free fall is possible of the upper block. And not seen on any videos.
Free fall 3.7 m before impact takes 0.8-0.9 seconds. Not seen on any video.
As a consequence an impact on a lower structure caused by an upper block
after free fall is not possible. And not seen on any videos.
So there is no new vertical gravity load on the lower structure. The gravity load is always the same on the lower structure, while the connecting columns are being deformed. Quite basic. That's why steel structures never collapse due to gravity unless you suddenly destroy vital connections, like in CD. Fire can never suddenly destroy vital connections like CD does.
That is why CD companies never put the top of a steel building on fire and hope that it will collapse. It doesn't work like that.
But, if free fall actually occurs and if the released energy is actually applied on the lower structure, which is very unlikely, I demonstrate that it will only temporarily compress the lower structure and cause some local failures at the top of the lower structure. After that all potential energy released is consumed and lost. In reality no free fall/impact occur and all potential energy is consumed deforming the intermediate columns.
Bazant and Seffen and Nist are wrong when demonstrating anything else using false assumtions; rigid upper body, uniform density, upper body intact all the time, simultaneous failure/disappearance of 280+ columns, free fall, impacts, shockwaves, no redundancy in lower structure, etc. Clearly shown in my article.
Recommendation is that Bazant and Seffen redo their analysis using correct assumptions. No big deal really. Only that the conclusion will be that no global collapse ensues!
