Layman's terms please! Tower collapse issue

[DGM]

The article ( http://heiwaco.tripod.com/nist.htm ) evidently shows and calculates the loadings on the columns and their stressess in the impact zone pre impact. The loads produce compressive stresses <30% yield in the columns, i.e. very safe. No big deal! Then there is some destruction due alleged plane crash and a fire. Nist advices the small redistribution of loadings due to that = all is still safe. All described in the article;

Then there is the mysterious free fall/impact. The loadings in the impact zone just prior, i.e. pre impact are then ZERO. The upper block is detached from the lower structure and has not yet impacted = ZERO loads.

In the article an impact is assumed, energy/force/loads are transmitted to the lower structure and ... generally only elastic compression takes place according calculations. Some plastic failures may occur, but the loads are then diverted sideways and ... the progressive collapse is arrested as excpected.

Hope this clarifies your questions? Thanks for your interest.

Heiwa:
How does this even come close to answering my question? Did you or did you not calculate the loads post impact at the initiation zone? If not how is anyone except a child supposed to think of you as anything but a fraud?

 

[Corsair 115]

I find it interesting to learn that he's a no-planer (always assuming that Zorgulb's post is a fair transaltion).

Well, if so, that's the final nail in the coffin.

Actually, Architect nailed that coffin shut some time ago, so I suppose it'd be more accurate to say if Heiwa is a no-planer, then that's the last of the dirt being shovelled onto the coffin.

 

[Heiwa]

Heiwa:
How does this even come close to answering my question? Did you or did you not calculate the loads post impact at the initiation zone? If not how is anyone except a child supposed to think of you as anything but a fraud?

?? Everything is described ... in layman's terms. From the article: "Let's assume the 'spring' below is suddenly compressed by 0.5 KE = E = 0.61 GNm at time Teffect.
The maximum compression d of the 'spring' due to energy E then becomes 78 centimeters (because d² = 2 E/C) and after that all the 0.61 GNm or 170 kWh of energy is absorbed as compression! And any motion has stopped! This is a good indication of the elastic strain energy that could be absorbed by a 'spring' without any permanent deformations. "

Suddenly compressed = impact. Happy?

 

[tsig]

No-one laughs at Poms posts but plenty are laughing at yours, so maybe you are the joker?

Heiwa is the one who always laughed at the jokes even though he never got them.

 

[Architect]

?? Everything is described ... in layman's terms. From the article: "Let's assume the 'spring' below is suddenly compressed by 0.5 KE = E = 0.61 GNm at time Teffect.
The maximum compression d of the 'spring' due to energy E then becomes 78 centimeters (because d² = 2 E/C) and after that all the 0.61 GNm or 170 kWh of energy is absorbed as compression! And any motion has stopped! This is a good indication of the elastic strain energy that could be absorbed by a 'spring' without any permanent deformations. "

Suddenly compressed = impact. Happy?

No Heiwa, that does not comprise any meaningful level of structural analysis or calculation, indeed you have overlooked very basic structural engineering issues which one would have expected a second year student to have picked up.

 

[Architect]

Heiwa is the one who always laughed at the jokes even though he never got them.

I am minded of the old phrase, "We're not laughing with you"........


(This may not translate readily into other languages)

 

[Heiwa]

No Heiwa, that does not comprise any meaningful level of structural analysis or calculation, indeed you have overlooked very basic structural engineering issues which one would have expected a second year student to have picked up.

It does given the assumptions! Bazant/Seffen (and Nist in its first attempt) on the other hand assume that the upper block and the structure below the first storey of the lower structure are 100% solid/rigid/aligned and then of course the poor storey in between gets flattened hammer/nail style. And that should be the end of the collapse under those assumptions. Strangely however, the second storey below, that was previously rigid and solid, now suddenly becomes neither and is mysteriously crushed, etc. The upper block is still indestructible, due to its uniform density, and can continue the destruction below until the end. Pure folly and not possible if you read my article as a whole and the conclusions.

Cock-sure certainty is the source of much that is worst in our present world.

BTW - what basic engineering issues are overlooked?

 

[Heiwa]

I am minded of the old phrase, "We're not laughing with you"........


(This may not translate readily into other languages)

I am still waiting for the pictures of free fall, impact and first failures. Any problems to find those?

 

[Corsair 115]

I am still waiting for the pictures of free fall, impact and first failures. Any problems to find those?

We're still waiting for your in-depth calculations. Any problems doing those?

 

[Architect]

I am still waiting for the pictures of free fall, impact and first failures. Any problems to find those?

You appear to have overlooked my post where I pointed out that you'd qualified your request for photographic evidence to a level whereby you knew fine it couldn't be produced.

Really, you're not very good at the hand-waving - are you?

 

[DC]

No-one laughs at Poms posts but plenty are laughing at yours, so maybe you are the joker?

wrong, i laughed. i alsways have to laugh when ppl take the Bazantsche Collapse theory as a fact lol.

 

[DGM]

?? Everything is described ... in layman's terms. From the article: "Let's assume the 'spring' below is suddenly compressed by 0.5 KE = E = 0.61 GNm at time Teffect.
The maximum compression d of the 'spring' due to energy E then becomes 78 centimeters (because d² = 2 E/C) and after that all the 0.61 GNm or 170 kWh of energy is absorbed as compression! And any motion has stopped! This is a good indication of the elastic strain energy that could be absorbed by a 'spring' without any permanent deformations. "

Suddenly compressed = impact. Happy?

It seems very clear that the reason you describe it that way is because you are indeed one (laymen that is). How can you do any analysis if you can't calculate the load on the structure post impact at that zone? Your paper is nothing more than a poor attempt to sway unknowing people to your believes. Pure propaganda.

The engineering world is laughing at you on this as it did over your "Estonia" analysis. You need help.

 

[DC]

It seems very clear that the reason you describe it that way is because you are indeed one (laymen that is). How can you do any analysis if you can't calculate the load on the structure post impact at that zone? Your paper is nothing more than a poor attempt to sway unknowing people to your believes. Pure propaganda.

The engineering world is laughing at you on this as it did over your "Estonia" analysis. You need help.

are you representant for the Engineering world?

 

[padragan]

I am minded of the old phrase, "We're not laughing with you"........


(This may not translate readily into other languages)

We use the exact same phrase in swedish, so the point should be obvious for the designated target.

(btw I noticed that he ignored my last posting, perhaps he realised that I'm not interested in replies not related to what I asked for)

 

[DGM]

are you representant for the Engineering world?

Can you point to were he calculates the load post impact in that zone? You don't think it's pertinent to take into consideration the damage to a building to know how it collapsed?

He writes for children because they're all he fool. Show me where I'm wrong?

 

[DC]

Can you point to were he calculates the load post impact in that zone? You don't think it's pertinent to take into consideration the damage to a building to know how it collapsed?

He writes for children because they're all he fool. Show me where I'm wrong?

can you point me to tha calculations of Bazant, where he calculates away the mass that falls next to the towers and not on them?

and can you point me out something that would backup Bazant0s claims that only the most upper floor is affected at impact of the upper part.

can you show me where Bazant calculates the energy "used" for deformation of the upper tower part?

 

[DGM]

can you point me to tha calculations of Bazant, where he calculates away the mass that falls next to the towers and not on them?

and can you point me out something that would backup Bazant0s claims that only the most upper floor is affected at impact of the upper part.

can you show me where Bazant calculates the energy "used" for deformation of the upper tower part?

What are you talking about? How does any of this pertain to my question of Heiwa's analysis (or his paper for that matter)?

BTW Read Bazant's papers you may gain so insight into the questions you asked. Dr Greening's paper is also helpful.

 

[pomeroo]

Are you joking?

There is a fine distinction to be observed here: I am laughing hard, but I am not joking.

Either you are not a real engineer at all, or you are unbelievably incompetent.

 

[rwguinn]

are you representant for the Engineering world?

We don't elect representatives.
But indeed, his comments are representative OF the Engineering World

 

[Heiwa]

It seems very clear that the reason you describe it that way is because you are indeed one (laymen that is). How can you do any analysis if you can't calculate the load on the structure post impact at that zone? Your paper is nothing more than a poor attempt to sway unknowing people to your believes. Pure propaganda.

The engineering world is laughing at you on this as it did over your "Estonia" analysis. You need help.

What load on the structure (below, I assume) post impact are you talking about?

The total weight of the upper block? Evidently the lower structure can carry that! It did for 30+ years.

Some dynamic impact load? No impact occurs, as far as I am concerned, so I assume one (read the article) and the result is only a dynamic, elastic reaction force developing in the lower structure (spring) cancelling any further progressive collapse.

Of course the lower structure is not just 1000's of springs; there are many parts, e.g. floors, that deflect the dynamic load away from the structure, etc. All that can evidently be simulated and calculated - see link in the paper.

Propaganda? Did your sect leader propose that? Develop the topic in another thread, please.

Estonia? Nobody is laughing! So give me only the name of one person laughing at me to back up your statement.

Suggest we return discussing tower collapse issues; no photos of free fall, impact, post loads on the structure below, etc.