Originally Posted by Marokkaan
Sure. Here you go. A BIG list.
Performance based structural fire engineering for modern building design
Rini, D., Lamont, S. 2008 Proceedings of the 2008 Structures Congress - Structures Congress 2008: Crossing the Borders 314
Engineering perspective of the collapse of WTC-I
Irfanoglu, A., Hoffmann, C.M. 2008 Journal of Performance of Constructed Facilities 22 (1),
Collapse of towers as applied to September 11 events
Cherepanov, G.P. 2008 Materials Science 44 (4), pp. 489-499
Modeling pre-evacuation delay by occupants in World Trade Center Towers 1 and 2 on September 11, 2001
Kuligowski, E.D., Mileti, D.S. 2008 Fire Safety Journal
World Trade Center building disaster: Stimulus for innovations
Kodur, V.K.R. 2008 Indian Concrete Journal 82 (1), pp. 23-31
A collective undergraduate class project reconstructing the September 11, 2001 world trade center fire
Marshall, A., Quintiere, J. 2007 ASEE Annual Conference and Exposition, Conference Proceedings
"A new era": The limits of engineering expertise in a post-9/11 world
Pfatteicher, S.K.A. 2007 International Symposium on Technology and Society, Proceedings, art. no. 4362228
Progressive collapse of the World Trade Center: Simple analysis
Seffen, K.A. 2008 Journal of Engineering Mechanics 134 (2), pp. 125-132
Scale modeling of the 96th floor of world trade center tower 1
Wang, M., Chang, P., Quintiere, J., Marshall, A. 2007 Journal of Performance of Constructed Facilities 21 (6), pp. 414-421
Failure of welded floor truss connections from the exterior wall during collapse of the world trade center towers
Banovic, S.W., Siewert, T.A. 2007 Welding Journal (Miami, Fla) 86 (9), pp. 263-s-272-s
The collapse of the world trade center towers: A metallurgist's view
Gayle, F.W. 2007 MRS Bulletin 32 (9), pp. 710-716
Building code changes reflect world trade center investigation
Hansen, B. 2007 Civil Engineering 77 (9), pp. 22+24-25
Fire load in a steel building design
Razdolsky, L. 2008 Proceedings of the 4th International Structural Engineering and Construction Conference, ISEC-4 - Innovations in Structural Engineering and Construction 2, pp. 1163-1167
The structural steel of the World Trade Center towers
Gayle, F.W., Banovic, S.W., Foecke, T., Fields, R.J., Luecke, W.E., McColskey, J.D., McCown, C., Siewert, T.A. 2006 Journal of Failure Analysis and Prevention 6 (5), pp. 5-8
Progressive collapse of structures: Annotated bibliography and comparison of codes and standards
Mohamed, O.A. 2006 Journal of Performance of Constructed Facilities 20 (4), art. no. 001604QCF, pp. 418-425
A simple model of the World Trade Center fireball dynamics
Baum, H.R., Rehm, R.G., Quintiere, J.G. 2005 Proceedings of the Combustion Institute 30 II, pp. 2247-2254
Impact of the Boeing 767 Aircraft into the World Trade Center
Karim, M.R., Hoo Fatt, M.S. 2005 Journal of Engineering Mechanics 131 (10), pp. 1066-1072
High-fidelity simulation of large-scale structures
Hoffmann, C., Sameh, A., Grama, A. 2005 Lecture Notes in Computer Science 3515 (II), pp. 664-671
Collapses of the world trade center towers
[No author name available] 2005 Indian Concrete Journal 79 (8), pp. 11-16
Industry updates: Fireproofing, staircases cited in World Trade Center report
[No author name available] 2005 Journal of Failure Analysis and Prevention 5 (4), pp. 34
September 11 and fracture mechanics - A retrospective
Cherepanov, G.P. 2005 International Journal of Fracture 132 (2), pp. L25-L26
Structural responses of World Trade Center under aircraft attacks
Omika, Y., Fukuzawa, E., Koshika, N., Morikawa, H., Fukuda, R. 2005 Journal of Structural Engineering 131 (1), pp. 6-15
Impact of the 2001 World Trade Center attack on critical interdependent infrastructures
Mendonša, D., Lee II, E.E., Wallace, W.A. 2004 Conference Proceedings - IEEE International Conference on Systems, Man and Cybernetics 5, pp. 4053-4058
Use of high-efficiency energy absorbing device to arrest progressive collapse of tall building
Zhou, Q., Yu, T.X. 2004 Journal of Engineering Mechanics 130 (10), pp. 1177-1187
Progressive analysis procedure for progressive collapse
Marjanishvili, S.M. 2004 Journal of Performance of Constructed Facilities 18 (2), pp. 79-85
Lessons learned on improving resistance of buildings to terrorist attacks
Corley, W.G. 2004 Journal of Performance of Constructed Facilities 18 (2), pp. 68-78
Anatomy of a disaster: A structural investigation of the World Trade Center collapses
Abboud, N., Levy, M., Tennant, D., Mould, J., Levine, H., King, S., Ekwueme, C., (...), Hart, G. 2003 Forensic Engineering, Proceedings of the Congress, pp. 360-370
World Trade Center disaster: Damage/debris assessment
Thater, G.G., Panariello, G.F., Cuoco, D.A. 2003 Forensic Engineering, Proceedings of the Congress, pp. 383-392
How did the WTC towers collapse: A new theory
Usmani, A.S., Chung, Y.C., Torero, J.L. 2003 Fire Safety Journal 38 (6), pp. 501-533
Microstructural analysis of the steels from Buildings 7, & 1 or 2 from the World Trade Center
Biederman, R.R., Sullivan, E.M., Sisson Jr., R.D., Vander Voort, G.F. 2003 Microscopy and Microanalysis 9 (SUPPL. 2), pp. 550-551
"WTC: Lightweight Steel and High-Rise Buildings"
Fire Engineering v.155, no. 4, (2002): 145-150.
Analysis of the thermal exposure in the impact areas of the World Trade Center terrorist attacks
Beyler, C., White, D., Peatross, M., Trellis, J., Li, S., Luers, A., Hopkins, D. 2003 Forensic Engineering, Proceedings of the Congress, pp. 371-382
Clifton, Charles G.
Elaboration on Aspects of the Postulated Collapse of the World Trade Centre Twin Towers
HERA: Innovation in Metals. 2001. 13 December 2001.
"Construction and Collapse Factors"
Fire Engineering v.155, no. 10, (2002): 106-108.
Bazant, Z.P., & Zhou, Y.
"Addendum to 'Why Did the World Trade Center Collapse? - Simple Analysis" Journal of Engineering Mechanics v. 128, no. 3, (2002): 369-370.
"Learning and Applying the Lessons of the WTC Disaster"
Fire Engineering v.155, no. 10, (2002.): 133-135.
"Dissecting the Collapses"
Civil Engineering ASCE v. 72, no. 5, (2002): 36-46.
Eagar, T.W., & Musso, C.
"Why Did the World Trade Center Collapse? Science, Engineering, and Speculation"
JOM v. 53, no. 12, (2001): 8-12.
Gabrielson, T.B., Poese, M.E., & Atchley, A.A.
"Acoustic and Vibration Background Noise in the Collapsed Structure of the World Trade Center"
The Journal of Acoustical Society of America v. 113, no. 1, (2003): 45-48.
Fire Engineering v. 155, no. 10, (2002): 97-103
"TMS Hot Topic Symposium Examines WTC Collapse and Building Engineering"
JOM, v. 54, no. 4, (2002): 13-17.
"World Trade Center Collapse-Civil Engineering Considerations"
Practice Periodical on Structural Design and Construction v. 7, no. 3, (2002): 134-135.
Newland, D.E., & Cebon, D.
"Could the World Trade Center Have Been Modified to Prevent Its Collapse?"
Journal of Engineering Mechanics v. 128, no. 7, (2002):795-800.
Pinsker, Lisa, M.
"Applying Geology at the World Trade Center Site"
Geotimes v. 46, no. 11, (2001).
The print copy has 3-D images.
"No Code Changes Recommended in World Trade Center Report"
ENR v. 248, no. 14, (2002): 14.
"Study Absolves Twin Tower Trusses, Fireproofing"
ENR v. 249, no. 19, (2002): 12-14.
The University of Sydney, Department of Civil Engineering
World Trade Center - Some Engineering Aspects
A resource site.
"WTC Engineers Credit Design in Saving Thousands of Lives"
ENR v. 247, no. 16, (2001): 12.