CFT Design Studies

From Composite Systems
Jump to: navigation, search
Author(s) Year Publication Reference
An, Han, & Zhao 2012 Thin-Walled Structures An, Y.-F., Han, L.-H., and Zhao, X.-L. (2012). “Behaviour and Design Calculations on Very Slender Thin-walled CFST Columns.” Thin-Walled Structures, 53, 161–175. doi:10.1016/j.tws.2012.01.011
Angelides & Papanikas 2006 Proceedings of the Eleventh International Symposium and IIW International Conference on Tubular Structures Angelides, M. and Papanikas, G. (2006). “Concrete Filled Hollow Sections Under Earthquake Loading: Investigation and Comparison of Structural Response,” Tubular Structures XI, Proceedings of the Eleventh International Symposium and IIW International Conference on Tubular Structures, Packer, J. A. and Willibald, S. (eds.), Québec City, Canada, 31 August-2 September 2006, Taylor & Francis, Leiden, The Netherlands, pp. 655-660.
Azizinamini, Zaki, & El-Remaily 1996 Proceedings of the Third Joint Technical Coordinating Committee Meeting Azizinamini, A., Zaki, M., and El-Remaily, A. (1996). “Development of Design Criteria for Steel Beam to Concrete Filled Tube Column Connections in Seismic Regions,” Proceedings of the Third Joint Technical Coordinating Committee Meeting, U.S.-Japan Cooperative Research Program, Phase 5: Composite and Hybrid Structures, Hong Kong, December 12-14, 1996, National Science Foundation, Arlington, Virginia.
Bambach 2011 Thin-Walled Structures Bambach, M. R. (2011). “Design of Hollow and Concrete Filled Steel and Stainless Steel Tubular Columns for Transverse Impact Loads,” Thin-Walled Structures, 49(10), pp. 1251-1260. doi:10.1016/j.tws.2011.05.009
Basu 1967 Proceedings of the Institution of Civil Engineers Basu, A. K. (1967). “Computation of Failure Loads of Composite Columns,” Proceedings of the Institution of Civil Engineers, Vol. 36, pp. 557-578.
Basu 1969 Proceedings of the Institution of Civil Engineers Basu, A. K. and Sommerville, W. (1969). “Derivation of Formulae for the Design of Rectangular Composite Columns,” Proceedings of the Institution of Civil Engineers, Supplemental Vol., paper 7206S, pp. 233-280.
Bergmann et al. 1995 The Steel Construction Institute Bergmann, R., Matsui, C., Meinsma, C., and Dutta, D. (1995). “Design Guide for Concrete-Filled Hollow Section Columns under Static and Seismic Loading,” The Steel Construction Institute, Berkshire, U.K.
Bergmann 1997 Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures Bergmann, R. (1997). “German Design Method for Composite Columns with Concrete Filled Sections,” Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures, Innsbruck, Austria, 18 September 1997, ASCCS, Japan, pp. 27-38.
Bergmann & Hanswille 2004 Composite Construction in Steel and Concrete V, Proceedings of the 5th International Conference Bergmann, R. and Hanswille, G. (2004). “New Design Method for Composite Columns Including High Strength Steel,” Composite Construction in Steel and Concrete V, Proceedings of the 5th International Conference, Leon, R. T. and Lange, J. (eds.), Kruger National Park, South Africa, 18-23 July 2004, United Engineering Foundation, American Society of Civil Engineers, Reston, Virginia.
Beutel, Thambiratnam, & Perera 1998 Proceedings of the Eighth International Symposium on Tubular Structures Beutel, J. G., Thambiratnam, D. P., and Perera, N. J. (1998). “On the Behavior and Design of Composite Column to Beam Connections Under Seismic Loads,” Tubular Structures VIII, Proceedings of the Eighth International Symposium on Tubular Structures, Choo, Y. S., and Van der Vegte, G. J. (eds.), Singapore, 26-28 August 1998, A. A. Balkema, Rotterdam, The Netherlands, pp. 615-624.
Bridge 1996 National Engineering Conference Bridge, R. Q. (1996). “Reinforced Concrete, Steel, and Steel-Concrete Composite Columns,” National Engineering Conference, “The Darwin Summit,” Darwin, Northern Territory, April 21-24, 1996, pp. 127-134.
Bridge et al. 1997 Internal paper, School of Civil Engineering, University of Sydney Bridge, R. Q., O'Shea, M. D., and Zhang, J. Q. (1997). “Load Moment Interaction Curves for Concrete Filled Tubes,” Internal paper, School of Civil Engineering, University of Sydney, Sydney, Australia.
Bridge & O'Shea 1997 Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures Bridge, R. Q. and O'Shea, M. D. (1997). “Australian Composite Code Concrete Filled Steel Tubes,” Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures, Innsbruck, Austria, 18 September 1997, ASCCS, Japan, pp. 59-74.
Bruneau & Marson 2003 Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003) Bruneau, M. and Marson, J. (2003). “Seismic Design of Concrete-Filled Circular Steel Bridge Piers,” NCREE-03-026, Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003), Tsai, K.-C. and Liu, G.-Y. (eds.), Taipei, Taiwan, 8-9 October 2003, National Center for Research on Earthquake Engineering, National Taiwan University, Taipei, Taiwan.
Bruneau et al. 2011 Bulletin of the New Zealand Society for Earthquake Engineering Bruneau, M., El-Bahey, S., Fujikura, S., Keller, D., (2011). “Structural Fuses and Concrete-Filled Steel Shapes for Seismic- and Multi-Hazard Resistant Design,” Bulletin of the New Zealand Society for Earthquake Engineering, Vol.44, No.1, pp.44-52.
Chen, Chen, & Jin 2009 Thin-Walled Structures Chen J. Chen J. Jin W.L. (2009). "Design of Thin-walled Centrifugal Concrete-filled Steel Tubes under Torsion," Thin-Walled Structures, 47(3), 271-276. doi:10.1016/j.tws.2008.08.001
Choi, Foutch, & LaFave 2008 Engineering Structures Choi, Y.-H., Foutch, D. A., and LaFave, J. M. (2006). “New Approach to AISC P-M Interaction Curve for Square Concrete Filled Tube (CFT) Beam-Columns,” Engineering Structures, Vol. 28, pp. 1586-1598.
Choi, Kim, & Choi 2008 Thin-Walled Structures Choi, Y.-H., Kim, K. S., and Choi, S.-M. (2008). “Simplified P-M Interaction Curve for Square Steel Tube Filled with High-strength Concrete.” Thin-Walled Structures, 46(5), 506-515. doi:10.1016/j.tws.2007.10.008
Chung, Matsui, & Tsuda 2001 Structural Engineering and Materials Chung, J., Matsui, C., and Tsuda, K. (2001). “Simplified Design Formula of Slender Concrete Filled Steel Tubular Beam-Columns,” Structural Engineering and Materials, Vol. 12, No. 1, July, pp. 71-84.
Dasgupta et al. 2003 Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003) Dasgupta, P., Goel, S. C., Parra-Montesinos, G., Tsai, K. C. (2003). “Performance-Based Seismic Design and Testing of a Composite Buckling Restrained Braced Frame,” NCREE-03-026, Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003), Tsai, K.-C. and Liu, G.-Y. (eds.), Taipei, Taiwan, 8-9 October 2003, National Center for Research on Earthquake Engineering, National Taiwan University, Taipei, Taiwan.
Feng & Young 2010 Advances in Structural Engineering Feng, R. and Young, B. (2010). “Design of Concrete-filled Stainless Steel Tubular Connections,” Advances in Structural Engineering, 13(3), p. 471-492. doi:10.1260/1369-4332.13.3.471
Furlong 1974 Journal of the Structural Division, ASCE Furlong, R. W. (1974). “Concrete Encased Steel Columns - Design Tables,” Journal of the Structural Division, ASCE, Vol. 100, No. ST9, pp. 1865-1882.
Furlong 1976 Engineering Journal, AISC Furlong, R. W. (1976). “AISC Column Logic Makes Sense for Composite Columns, Too,” Engineering Journal, AISC, Vol. 13, No. 1, First Quarter 1976, pp. 1-7.
Furlong 1983 Journal of the Structural Division, ASCE Furlong, R. W. (1983). “Comparison of AISC, SSRC, and ACI Specifications for Composite Columns,” Journal of the Structural Division, ASCE, Vol. 109, No. ST9, September, pp. 1784-1803.
Furlong 1983 Journal of the Structural Division, ASCE Furlong, R. W. (1983). “Column Rules of ACI, SSRC, and LRFD Compared,” Journal of the Structural Division, ASCE, Vol. 109, No. ST10, October 1983, pp. 2375-2386.
Furlong 1988 Steel-Concrete Composite Structures - Stability and Strength Furlong, R. W. (1988). “Steel-Concrete Composite Columns – II,” Steel-Concrete Composite Structures - Stability and Strength, Narayanan, R. (ed.), Elsevier Applied Science, London, pp. 195-220.
Furlanetto, Ferretti Torricelli, & Marchiondelli 2008 Life-Cycle Civil Engineering Furlanetto, G., Ferretti Torricelli, L., and Marchiondelli, A. (2008). “Design of Durable Bridges by Using Self-compacting Concrete Filled Steel Tubes,” Life-Cycle Civil Engineering, Proceedings of the International Symposium on Life-Cycle Civil Engineering, IALCCE '08. doi:10.1201/9780203885307.ch116
Gartner & Hajjar 1988 Structural Engineering Report No. ST-06-01, Department of Civil Engineering, University of Minnesota Gartner, S. M. and Hajjar, J. F. (2006). “Design and Evaluation of Rectangular Concrete Filled Tube (RCFT) Frames for Seismic Demand Assessment,” Structural Engineering Report No. ST-06-01, Department of Civil Engineering, University of Minnesota, Minneapolis, Minnesota, May, 266 pp.
Goode 1994 Proceedings of the Fourth International Conference on Steel-Concrete Composite Structures Goode, C. D. (1994). “Composite Columns - State-of-the-Art,” Steel-Concrete Composite Structures, Proceedings of the Fourth International Conference on Steel-Concrete Composite Structures, Javor, T. (ed.), Kosice, Slovakia, June 20-23, 1994, Association for International Cooperation and Research in Steel-Concrete Composite Structures, Expertcentrum, Bratislava, Slovakia, pp. 63-69.
Goode & Narayanan 1997 Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures Goode, C. D. and Narayanan, R. (1997). “Design of Concrete Filled Steel Tubes to EC4,” Concrete Filled Steel Tubes: A Comparison of InternationalCodes and Practices, Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures, Innsbruck, Austria, September 18, 1997, ASCCS, Japan, pp. 1-26.
Goode 2008 The Structural Engineer Goode, C. D. (2008). “Composite Columns - 1819 Tests on Concrete-Filled Steel Tube Columns Compared with Eurocode 4.” The Structural Engineer, 86(16), 33–38.
Grimault & Janss 1977 Preliminary Report, ECCS Colloquium on Stability of Steel Structures Grimault, J. P. and Janss, J. (1977). “Reduction of the Bearing Capacity of Concrete Filled Hollow Sections due to Local Buckling,” Preliminary Report, ECCS Colloquium on Stability of Steel Structures, Liege, Belgium, pp. 175-179.
Hitaka, Suita, & Kato 2003 Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003) Hitaka, T., Suita, K., and Kato, M. (2003). “CFT Column Base Design and Practice in Japan,” NCREE-03-026, Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003), Tsai, K.-C. and Liu, G.-Y. (eds.), Taipei, Taiwan, 8-9 October 2003, National Center for Research on Earthquake Engineering, National Taiwan University, Taipei, Taiwan.
Hooper et al. 1999 Civil Engineering Hooper, J. D., Roeder, C. W., Klemencic, R., and Nordquist, K. (1999). “Best of Both Worlds,” Civil Engineering, Vol. 69, No. 1, January 1999, pp. 40-42.
Huang, Long, & Cai 2008 Steel and Composite Structures Huang, Y.-S., Long, Y.-L., and Cai, J. (2008). “Ultimate Strength of Rectangular Concrete-filled Steel Tubular (CFT) Stub Columns under Axial Compression.” Steel and Composite Structures, 8(2), 115 - 128.
Huber 2001 Proceedings of the Ninth International Symposium and Euro conference on Tubular Structures Huber, G. (2001). “Millennium Tower in Vienna: Semi-Continuous Connections Between Composite Slim Floors and Composite Tubular Columns,” Tubular Structures IX, Proceedings of the Ninth International Symposium and Euroconference on Tubular Structures, Puthli, R. and Herion, S. (eds.), Düsseldorf, Germany, 3-5 April 2001, Swets & Zeitlinger, Lisse, The Netherlands, pp. 57-64.
Kato 1996 Journal of Constructional Steel Research Kato, B. (1996) “Column Curves of Steel-Concrete Composite Members,” Journal of Constructional Steel Research, Vol. 39, No. 2, pp. 121-136
Kenny, Bruce, & Bjorhovde 1994 Engineering Journal, AISC Kenny, J. R., Bruce, D. A., and Bjorhovde, R. (1994). “Removal of Yield Stress Limitation for Composite Tubular Columns,” Engineering Journal, AISC, Vol. 31, No. 1, First Quarter 1994, pp. 1-11.
Kilpatrick & Taylor 1997 Composite Construction -- Conventional and Innovative Kilpatrick, A. and Taylor, T. (1997). “Application of Eurocode 4 Design Provisions to High Strength Composite Columns,” Composite Construction -- Conventional and Innovative, Proceedings of the International Conference, Innsbruck, Austria, September 16-18, 1997, International Association of Bridge and Structural Engineers, Lausanne, Switzerland, pp. 561-566
Kvedaras, Mykolaitis, & Šapalas 1996 Proceedings of the Seventh International Symposium on Tubular Structures Kvedaras, A., Mykolaitis, D., and Šapalas, A. (1996). “Projects in Hollow Concrete-Filled Steel Tubular Structures,” Tubular Structures VII, Proceedings of the Seventh International Symposium on Tubular Structures, Farkas, J. and Jármai, K. (eds.), Misolc, Hungary, 28-30 August 1996, A. A. Balkema, Rotterdam, The Netherlands, pp. 341-348.
Kvedaras & Šapalas 1999 Journal of Constructional Steel Research Kvedaras, A. K. and Sapalas, A. (1999). “Research and Practice of Concrete-Filled Steel Tubes in Lithuania,” Journal of Constructional Steel Research, Vol. 49, No. 2, February 1999, pp. 197-212.
La Fore & Hajjar 2005 Structural Engineering Report No. ST-05-02, Department of Civil Engineering, University of Minnesota La Fore, S. and Hajjar, J. F. (2005). “Design of Concrete-Filled Steel Tube Frames for Assessment under Seismic Loading,” Structural Engineering Report No. ST-05-02, Department of Civil Engineering, University of Minnesota, Minneapolis, Minnesota, May, 217 pp.
Lam & Gardner 2008 Journal of Constructional Steel Research Lam, D., and Gardner, L. (2008). “Structural Design of Stainless Steel Concrete Filled Columns.” Journal of Constructional Steel Research, 64(11), 1275-1282. doi:10.1016/j.jcsr.2008.04.012
Lam & Testo 2011 Composite Construction in Steel and Concrete VI Lam, D., and Testo, N. (2011). “Structural Design of Stainless Steel Concrete Filled Columns.” Composite Construction in Steel and Concrete VI - Proceedings of the 2008 Construction in Steel and Concrete Conference, p. 252-262.
Leon, Kim, & Hajjar 2007 Engineering Journal, AISC Leon, R. T., Kim, D. K., and Hajjar, J. F. (2007). “Limit State Response of Composite Columns and Beam-Columns: Formulation of Design Provisions for the 2005 AISC Specification,” Engineering Journal, AISC, Vol. 44, No. 4, Fourth Quarter, pp. 341-358.
Leon & Hajjar 2008 Engineering Journal, AISC Leon, R. T. and Hajjar, J. F. (2008). “Limit State Response of Composite Columns and Beam-Columns: Application of Design Provisions for the 2005 AISC Specification,” Engineering Journal, AISC, Vol. 45, No. 1, First Quarter.
Lu & Zhao 2010 Journal of Constructional Steel Research Lu, Z.-H., and Zhao, Y.-G. (2010). "Suggested Empirical Models for the Axial Capacity of Circular CFT Stub Columns," Journal of Constructional Steel Research, 66 (6), pp. 850-862. doi:10.1016/j.jcsr.2009.12.014
Mamaghani 2009 Proceedings of the 2009 Structures Congress Mamaghani, I. H. P. (2009). “Seismic Design and Ductility Evaluation of Partially Concrete‐Filled Steel Box Columns ,” Don't Mess with Structural Engineers: Expanding Our Role, Proceedings of the 2009 Structures Congress, Griffis, L., Helwig, T., Waggoner, M., and Hoit, M. (eds.), Austin, Texas, April 30 - May 2, 2009. doi:10.1061/41031(341)25
Mamaghani & Packer 2003 Proceedings of the Tenth International Symposium on Tubular Structures Mamaghani, I. H. P. and Packer, J. A. (2003). “Seismic Design and Ductility Issues in Concrete-Filled Steel Tubular Structures,” Tubular Structures X, Proceedings of the Tenth International Symposium on Tubular Structures, Jaurrieta, M. A., Alonso, A., and Chica, J. A. (eds.), Madrid, Spain, 18-20 September 2003, Swets & Zeitlinger, Lisse, The Netherlands, pp. 561-568.
Matsui et al. 1997 Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures Matsui, C., Mitani, I., Kawano, A., and Tsuda, K. (1997). “AIJ Design Method for Concrete Filled Steel Tubular Structures.” Concrete Filled Steel Tubes: A Comparison of International Codes and Practices, Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures, Innsbruck, Austria, 18 September 1997, ASCCS, Japan, pp. 93-116.
O'Shea & Bridge 1997 Composite Construction -- Conventional and Innovative O'Shea, M. D. and Bridge, R. Q. (1997). “The Design for Local Buckling of Concrete Filled Steel Tubes,” Composite Construction -- Conventional and Innovative, Proceedings of the International Conference, Innsbruck, Austria, September 16-18, 1997, International Association of Bridge and Structural Engineers, Lausanne, Switzerland, pp. 319-324.
O'Shea & Bridge 1997 Research Report No. R758, School of Civil Engineering, University of Sydney O'Shea, M. D. and Bridge, R. Q. (1997). “Design of Thin-Walled Concrete Filled Steel Tubes,” Research Report No. R758, School of Civil Engineering, University of Sydney, Sydney, Australia, November 1997.
O'Shea & Bridge 2000 Journal of Structural Engineering, ASCE O'Shea, M. D. and Bridge, R. Q. (2000). “Design of Circular Thin-Walled Concrete Filled Steel Tubes,” Journal of Structural Engineering, ASCE, Vol. 126, No. 11, November, pp. 1295-1303.
O'Shea & Bridge 1994 Proceedings of the Twelfth International Specialty Conference on Cold Formed Steel Structures O'Shea, M. D. and Bridge, R. Q. (1994). “Tests of Thin-Walled Concrete-Filled Steel Tubes,” Proceedings of the Twelfth International Specialty Conference on Cold Formed Steel Structures, St. Louis, Missouri.
Park et al. 2011 Proceedings of the Twelfth East Asia-Pacific Conference on Structural Engineering and Construction Park, J. W., Hong, Y. K., Hong, G. S., Kim, J. H., and Choi S. M. (2011). “Design Formulas of Concrete Filled Circular Steel Tubes Reinforced by Carbon Fiber Reinforced Plastic Sheets,” Proceedings of the Twelfth East Asia-Pacific Conference on Structural Engineering and Construction - EASEC12, Vol. 14, pp. 2919-2922. doi:10.1016/j.proeng.2011.07.367
Ricard & Beaulieu 1997 Canadian Journal of Civil Engineering Picard, A. and Beaulieu, D. (1997). “Resistance of Concrete-Filled Hollow Structural Sections,” Canadian Journal of Civil Engineering, Vol. 24, No. 5, October, pp. 785-789.
Roeder 1992 Proceedings of the U.S.-Japan Workshop on Composite and Hybrid Structures Roeder, C. W. (1992). “Composite Members in Seismic Design,” Proceedings of the U.S.-Japan Workshop on Composite and Hybrid Structures, U.S.-Japan Cooperative Research Program, Phase 5: Composite and Hybrid Structures, Berkeley, California, September 10-12, 1992, National Science Foundation, Arlington, Virginia, pp. 144-153.
Roeder 1998 Engineering Structures Roeder, C. W. (1998). “Overview of Hybrid and Composite Systems for Seismic Design in the United States,” Engineering Structures, Vol. 20, Nos. 4-6, April-June, pp. 355-363.
Roeder et al. 2003 Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003) Roeder, C. W., MacRae, G., Gunderson, C., and Lehman, D. E. (2003). “Seismic Design Criteria for CFT Braced Frame Connections,” NCREE-03-026, Proceedings of the International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003), Tsai, K.-C. and Liu, G.-Y. (eds.), Taipei, Taiwan, 8-9 October 2003, National Center for Research on Earthquake Engineering, National Taiwan University, Taipei, Taiwan.
Roeder, Lehman, & Bishop 2010 Journal of Structural Engineering Roeder, C. W., Lehman, D. E., and Bishop, E. (2010). “Strength and Stiffness of Circular Concrete-Filled Tubes.” Journal of Structural Engineering, ASCE, 136(12), 1545–1553. doi:10.1061/(ASCE)ST.1943-541X.0000263
Shahrooz & Zhang 2000 Composite and Hybrid Systems Shahrooz, B. M. and Zhang, W. (2000). “Comparison of ACI, AISC, and Basic Methods for CFTs,” Composite and Hybrid Systems, ACI SP-196, Aboutaha, R. S. and Bracci, J . M. (eds.), American Concrete Institute, Farmington Hills, Michigan.
Smit 1991 15th Biennial Conference, Concrete Institute of Australia Smit, E. L. (1991). “Design of Concrete Filled Steel Tubular Columns,” 15th Biennial Conference, Concrete Institute of Australia, Sydney, Australia, May, pp. 287-311.
Tao et al. 2008 Australian Journal of Structural Engineering Tao, Z., Uy, B., Han, L. H., and He, S.-H. (2008). “Design of Concrete-filled Steel Tubular Members According to the Australian Standard AS 5100 Model and Calibration.” Australian Journal of Structural Engineering, 8(3), 197-214.
Tao et al. 2009 Thin-Walled Structures Tao, Z., Uy, B., Han, L.-H., and Wang Z.-B. (2009). "Analysis and Design of Concrete-filled Stiffened Thin-walled Steel Tubular Columns under Axial Compression," Thin-Walled Structures, 47 (12), pp. 1544-1556. doi:10.1016/j.tws.2009.05.006
Teraoka & Morita 1991 Tubular Structures, Proceedings of the Fourth International Symposium Teraoka, M. and Morita, K. (1991). “Structural Design of High Rise Building Consists of Concrete Filled Square Tubular Columns and Steel Composite Beams and Its Experimental Verification,” Tubular Structures, Proceedings of the Fourth International Symposium, Wardenier, J., and Panjeh Shahi, E. (eds.), Delft, The Netherlands, 26-28 June 1991, Delft University Press, Delft, The Netherlands, pp. 392-401.
Tort & Hajjar 2003 International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003) Tort, C. and Hajjar, J. F. (2003). “Damage Measures for Performance-Based Design of Rectangular Concrete-Filled Steel Tube Members and Connections,” International Workshop on Steel and Concrete Composite Construction (IWSCCC-2003), National Center for Research on Earthquake Engineering, Taipei, Taiwan, October 8-9, 2003, National Center for Research on Earthquake Engineering, National Taiwan University, Taipei, Taiwan.
Tort & Hajjar 2004 Composite Construction in Steel and Concrete V, Proceedings of the 5th International Conference Tort, C. and Hajjar, J. F. (2004). “Damage Assessment for Performance-Based Design of Rectangular Concrete-Filled Steel Tubes,” Composite Construction in Steel and Concrete V, Proceedings of the 5th International Conference, Leon, R. T. and Lange, J. (eds.), Kruger National Park, South Africa, 18-23 July 2004, United Engineering Foundation, American Society of Civil Engineers, Reston, Virginia.
Tort & Hajjar 2005 Proceedings of the 2005 Structures Congress New York Tort, C. and Hajjar, J. F. (2005). “Capacity Assessment of Rectangular Concrete-Filled Steel Tube (RCFT) Members and Connections for Performance-Based Design of Composite Frames,” Metropolis & Beyond, Proceedings of the 2005 Structures Congress New York, New York, 20-24 April 2005, American Society of Civil Engineers, Reston, Virginia.
Tort & Hajjar 2007 Proceedings of the ASCE/SEI Structures Congress 2007 Tort, C. and Hajjar, J. F. (2007). “A Performance-Based Design Approach for Rectangular Concrete-Filled Steel Tube (RCFT) Frames under Seismic Loading,” Proceedings of the ASCE/SEI Structures Congress 2007, Long Beach, California, May 17-19, 2007, ASCE, Reston, Virginia.
Uchida & Tohki 1997 Composite Construction -- Conventional and Innovative Uchida, N. and Tohki, H. (1997). “Design of High-Rise Building using Round Tubular Steel Composite Columns,” Composite Construction -- Conventional and Innovative, Proceedings of the International Conference, Innsbruck, Austria, September 16-18, 1997, International Association of Bridge and Structural Engineers, Lausanne, Switzerland, pp. 373-378.
Wakabayashi 1980 Proceedings of the U.S.-Japan Seminar on Composite Structures an Mixed Structural Systems Wakabayashi, M. (1980). “Standards for the Design of Concrete Encased-Steel and Concrete-Filled Tubular Structures in Japan,” Proceedings of the U.S.-Japan Seminar on Composite Structures an Mixed Structural Systems, Gihodo Shuppan, Tokyo, pp. 69-84.
Xiao 1997 Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures Xiao, Y. (1997). “Concrete Filled Steel Tubular Column Design Based on AISC LRFD Methods,” Concrete Filled Steel Tubes: A Comparison of International Codes and Practices, Seminar by the Association for International Cooperation and Research in Steel-Concrete Composite Structures, Innsbruck, Austria, September 18, 1997, ASCCS, Japan, pp. 117-124.
Yee, Shakir-Khalil, & Taylor 1982 Journal of Constructional Steel Research Yee, K. M., Shakir-Khalil, H., and Taylor, R. (1982). “Design Expressions for a New Type of Composite Column,” Journal of Constructional Steel Research, Vol. 2, No. 2, pp. 26-32.
Zhang, Ma, & Goode 2007 Proceedings of the 3rd International Conference on Steel and Composite Structures (ICSCS07) Zhang, S., Ma, X., and Goode, C. D. (2007). “Comparison between Chinese and Three Worldwide Codes for Circular Concrete-filled Steel Tube Members.” Proceedings of the 3rd International Conference on Steel and Composite Structures (ICSCS07), Taylor & Francis, Manchester, UK.
Zhang & Shahrooz 1999 Journal of Structural Engineering Zhang, W., and Shahrooz, B. M. (1999). “Comparison between ACI and AISC for Concrete-Filled Tubular Columns.” Journal of Structural Engineering, 125(11), 1213-1223. doi:10.1061/(ASCE)0733-9445(1999)125:11(1213)
Zhong & Han 1995 Structural Steel Zhong, S. T. and Han, L.-H. (1995). “The United Theory of Concrete Filled Steel Tube,” Structural Steel, PSSC '95, Proceedings of the Fourth Pacific Structural Steel Conference, Shanmugam, N. E. and Choo, Y. S. (eds.), Singapore, 25-27 October, 1995, Pergamon, Elsevier Science, Vol. 3, pp. 61-67.