Why did the columns bow in? There’s been quite a bit of speculation and misinformed opinion about the mechanics of the structure that caused that, so I hope to do a little bit of enlightenment. The first thing that needs to be looked at is the problem. Figure 1 shows a typical building section through a building such as the WTC towers.
Everything here is fairly straight forward. The gravity load path can be seen very easily. The floor trusses deliver the vertical floor loads to the columns which deliver them to the foundations. But what happens when a core column is severed as in Figure 2?
Figure 2
Things start to get a little bit more complicated. The first thing that should dawn on most people is that the floor is no longer being supported by the middle column which is going to cause some problems. The middle column will drop unless there is a force that can resist it, see Figure 3.
As the column drops, the top chord of the floor truss develops tensile forces (it is quite literally stretched). This tensile force has two parts, a vertical portion that pulls the column up and a horizontal force that pulls the rest of the structure in. This can be seen in Figure 4.
The other things to note here is that the left column is still under its full axial loading (P2, which will be important in the analysis). The left column is already shown pulled in to some degree, however it is not to scale. Further modifying the problem, we know that the fires caused the trusses to sag to some degree. If the fire is hot enough, the truss will become a tension only member. This means that the top chord of the truss will act something like a rope and pull inwards at its connections. This can be seen in Figure 5. There is another condition as well (which I have no illustrated) that will cause the heated floor to expand outwards without losing its bending capacity and thus not sagging. It is a condition that likely proceeded that of the sagging floor trusses.
NIST (1-6D) estimates that the total pull-in force at the exterior columns is roughly 6 kips (6,000lbs) at each column. The truss to column connection consisted of (2) 5/8” diameter bolts. Even non-structural grade bolts of this size will have a shear capacity of over 5kips each, so it is reasonable to assume that the top chord of the truss will not pull off of the columns at the connections due to a 6kip load.
Is this 6 kips enough to pull the column in several feet as seen in the photos of the tower?
A = 15.7in^2
I = 739 in^4
S = 92.3 in ^3
Pn = 557k (from AISC LRFD 3rd, table 4-6 with an unbraced length, KL = 12’-4”)
Pu = ¼* 557k = 139k
Mn = 92.3in^3*46ksi = 4645 kip*in (Mn = maximum bending capacity)
The column itself will bend inwardly until it snaps if the column itself ever becomes inelastic. This can be defined by the ratio (I’ve simplified this a bit): Mu/Mn + Pu/Pn <>
Figure 7
Unbraced length = 37’-0”
Pu = 139k
Pn = 465k (from AISC LRFD 3rd, table 4-6 with an unbraced length, KL = 37’-0”)
Mn = 4645 kip*in
Mu = P*a
Mu = 6kip*1/3*37ft
Mu = 74kip*ft or 888 kip*in
a = 1/3*L
= P * 1/3L *(3L^2 – 4/9*L^2)/(24*E*I)
= 23*P*L^3/(1296*E*I)
= 23*6k*(37ft*12in/ft)^3/(1296*29000ksi*739in) = 0.435in
Additional moment due to P-delta
Mu+ = 0.435in*139k = 61.02 kip*in
Additional Deflection
=Mu+*L^2 / (4*EI)
= 61.02kip*in*(37 * 12ft\in)^2 / (4*29000ksi*739in^3)
= 0.140in
Additional moment due to P-delta2
Mu++ = (0.435+0.140)in*139k = 79.93 kip*in
Additional Deflection
= Mu++*L^2 / (4*EI) = 79.93kip*in*(37 * 12ft\in)^2 / (4*29000ksi*739in^3) = 0.184in
CALCULATION 2: DIAPHRAGM DAMAGE, 600C TEMP
Unbraced length = 37’-0”
E = 0.3*29000ksi = 8700ksi
Pu = 139k
Pn = 465k*0.5 = 233k
Mn = 4645 kip*in *0.5 = 2323kip*in Mu = P*a
Mu = 6kip*1/3*37ft
Mu = 74kip*ft or 888 kip*in
Deflection = P*a *(3L^2 – 4*a^2)/(24*E*I) (Formula from AISC LRFD 3rd)
a = 1/3*L
= P * 1/3L *(3L^2 – 4/9*L^2)/(24*E*I)
= 23*P*L^3/(1296*E*I)
= 23*6k*(37ft*12in/ft)^3/(1296*8700ksi*739in)
= 1.45in
Additional moment due to P-delta
Mu+ = 1.45in*139k = 201.6 kip*in
Additional Deflection
= Mu+*L^2 / (4*EI)
= 201.6kip*in*(37 * 12ft\in)^2 / (4*8700ksi*739in^3) = 1.55in
Additional moment due to P-delta2
Mu++ = (1.45+1.55)in*139k = 417 kip*in
Additional Deflection
= Mu++*L^2 / (4*EI)
= 417kip*in*(37 * 12ft\in)^2 / (4*8700ksi*739in^3) = 3.20in
This results in the column becoming unstable due to p-delta. This can easily be seen in that the deflection due to P-delta2 is double that of P-delta1. It can therefore be concluded that it was necessary for both fire and damage to result in the collapse of the towers.
I just posted this accidentally on an earlier thread, so I'll repost it here, Mr. Bit, since this seems to be your latest pronouncement.
ReplyDeleteVarious "experts" have written about the WTC collapse, the most credible of whom have been willing to put their real names on their work, show their credentials, publish their theories in peer-reviewed journals, etc. For example, we know that Dr. Bazant is a professor at Northwestern, Dr. Ross is Mechanical Engineer with a degree from Liverpool John Moores University, Dr Frank Greening is a Physical Chemist from Ontario, Dr. Judy Wood is a former professor at Clemson, etc. When people publish their work, they put their professional reputations on the line. As a fellow academic, I respect that. On the other hand, when people post anonymously on blogs like this, no matter how impressive-looking their mathematical "proofs" may be to the layman, it's hard to take them seriously. Mr. Bit, you even attack Dr. Ross's peer reviewers. But where are your peer-reviewed publications? Why don't you reveal yourself? Are you concerned that your credentials might not seem as impressive as your equations, or that your job title might lead some people to question your objectivity? Why don't you come on out of the closet, like the people whose theories you are attacking on these pages? I don't mean to be provocative or overly disparaging here; you may be, in fact, God's Gift to Physics and Structural Engineering. But if you really want to quash all the "conspiracy theories," then you're going about it in the wrong way. Hiding behind a pseudonym simply fans those flames, because it looks like you're trying to hide something.
I second the above. Unless you're prepared to put your name to your work it carries no weight.
ReplyDeleteI'm sorry, but I'll not give away my personal information so that people can call and harass me at work.
ReplyDeleteCheers!