Dr Cao Pham

Selected grants

2011

  • Direct strength method of design of simple and complex thin-walled shapes for combined actions; Hancock G, Pham C; Australian Research Council (ARC)/Discovery Projects (DP).

Selected publications

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Journals

  • Pham, C., Hancock, G. (2013). Experimental Investigation and Direct Strength Design of High-Strength, Complex C-Sections in Pure Bending. Journal of Structural Engineering, 139(11), 1842-1852. [More Information]
  • Hancock, G., Pham, C. (2013). Shear buckling of channel sections with simply supported ends using the Semi-Analytical Finite Strip Method. Thin Walled Structures, 71, 72-80. [More Information]
  • Pham, C., Hancock, G. (2013). Shear buckling of channels using the semi-analytical and spline finite strip methods. Journal of Constructional Steel Research, 90, 42-48. [More Information]
  • Pham, C., Hancock, G. (2012). Direct Strength Design of Cold-Formed C-Sections for Shear and Combined Actions. Journal of Structural Engineering, 138(6), 759-768.
  • Pham, C., Hancock, G. (2012). Elastic buckling of cold-formed channel sections in shear. Thin Walled Structures, 61, 22-26. [More Information]
  • Pham, C., Hancock, G. (2012). Tension field action for cold-formed sections in shear. Journal of Constructional Steel Research, 72, 168-178.
  • Pham, C., Hancock, G. (2010). Experimental Investigation of High Strength Cold-Formed C-Sections in Combined Bending and Shear. Journal of Structural Engineering, 136(7), 866-878.
  • Pham, C., Hancock, G. (2010). Numerical simulation of high strength cold-formed purlins in combined bending and shear. Journal of Constructional Steel Research, 66(10), 1205-1217. [More Information]
  • Pham, C., Hancock, G. (2010). Response to Discussion on "Shear buckling of thin-walled sections". Journal of Constructional Steel Research, 66(4), 606-606. [More Information]
  • Pham, C., Hancock, G. (2009). Direct Strength Design of Cold-Formed Purlins. Journal of Structural Engineering, 135(3), 229-238.
  • Pham, C., Hancock, G. (2009). Shear buckling of thin-walled channel sections. Journal of Constructional Steel Research, 65(3), 578-585. [More Information]

Conferences

  • Pham, C., Hancock, G. (2012). Direct Strength Design of High Strength Complex C-Sections in Pure Bending. 7th International Conference on Advances in Steel Structures (ICASS 2012), Nanjing: Southeast University Press.
  • Hancock, G., Pham, C. (2012). Direct Strength Method of Design for Shear of Cold-formed Channels based on a Shear Signature Curve. 21st International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, S., Pham, C., Hancock, G. (2012). Direct Strength Method of Design for Shear: The Third Dimension. Sixth International Conference on Coupled Instabilities in Metal Structures CIMS2012, Scotland: Loughborough University.
  • Pham, C., Hancock, G. (2012). Elastic Shear Buckling of Cold-Formed Channels: Comparisons of Semi-Analytical Finite Strip and Spline Finite Strip Methods. Sixth International Conference on Coupled Instabilities in Metal Structures CIMS2012, Scotland: Loughborough University.
  • Pham, C., Davis, A., Emmett, B. (2012). Experimental and Numerical Investigations of High Strength Cold-Formed Lapped Z Purlins under Combined Bending and Shear. 21st International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, S., Pham, C., Hancock, G. (2012). Shear Buckling of Thin-Walled Channel Sections with Complex Stiffened Webs. 21st International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, C., Hancock, G. (2011). Elastic Buckling of Cold-Formed Channel Sections in Shear. 6th International Conference on Thin Walled Structures, Mem Martins, Portugal: ECCS European Convention for Constructional Steelwork. [More Information]
  • Pham, C., Hancock, G. (2011). Tension Field Action for Cold-Formed Channel Sections in Shear. 6th International Conference on Thin Walled Structures, Mem Martins, Portugal: ECCS European Convention for Constructional Steelwork.
  • Pham, C., Hancock, G. (2010). Direct Strength Design of Cold-Formed C-Sections for Shear. 20th International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, C., Hancock, G. (2010). Direct Strength Design of Cold-Formed C-Sections in Combined Bending and Shear. 20th International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, C., Hancock, G. (2010). Direct Strength Design of Cold-Formed Sections for Shear and Combined Actions. International Colloquium on Stability and Ductility of Steel Structures (SDSS 2010), Brazil: Federal University of Rio de Janeiro.
  • Pham, C., Hancock, G. (2010). Experimental Investigation of High Strength Cold-Formed SupaCee Sections in Shear. International Colloquium on Stability and Ductility of Steel Structures (SDSS 2010), Brazil: Federal University of Rio de Janeiro.
  • Pham, C., Hancock, G. (2010). Finite Element Analyses of High Strength Cold-Formed SupaCee Sections in Shear. International Colloquium on Stability and Ductility of Steel Structures (SDSS 2010), Brazil: Federal University of Rio de Janeiro.
  • Pham, C., Hancock, G. (2009). Shear buckling of thin-walled channel sections with intermediate web stiffener. Sixth International Conference on Advances in Steel Structures, Hong Kong: Hong Kong Institute of Steel Construction.
  • Pham, C., Hancock, G. (2008). Buckling Studies of Thin-Walled Channel Sections in Shear. Fifth International Conference on Thin-Walled Structures, Brisbane, Australia: Queensland University of Technology.
  • Pham, C., Hancock, G. (2008). Buckling Studies of Thin-Walled Channel Sections under Combined Bending and Shear. Nineteen International Specialty Conference, St Louis, Missouri: Missouri University of Science & Technology.
  • Pham, C., Hancock, G. (2008). Direct Strength Design of Cold-Formed Purlins. Fifth International Conference on Thin-Walled Structures, Brisbane, Australia: Queensland University of Technology.

2013

  • Pham, C., Hancock, G. (2013). Experimental Investigation and Direct Strength Design of High-Strength, Complex C-Sections in Pure Bending. Journal of Structural Engineering, 139(11), 1842-1852. [More Information]
  • Hancock, G., Pham, C. (2013). Shear buckling of channel sections with simply supported ends using the Semi-Analytical Finite Strip Method. Thin Walled Structures, 71, 72-80. [More Information]
  • Pham, C., Hancock, G. (2013). Shear buckling of channels using the semi-analytical and spline finite strip methods. Journal of Constructional Steel Research, 90, 42-48. [More Information]

2012

  • Pham, C., Hancock, G. (2012). Direct Strength Design of Cold-Formed C-Sections for Shear and Combined Actions. Journal of Structural Engineering, 138(6), 759-768.
  • Pham, C., Hancock, G. (2012). Direct Strength Design of High Strength Complex C-Sections in Pure Bending. 7th International Conference on Advances in Steel Structures (ICASS 2012), Nanjing: Southeast University Press.
  • Hancock, G., Pham, C. (2012). Direct Strength Method of Design for Shear of Cold-formed Channels based on a Shear Signature Curve. 21st International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, S., Pham, C., Hancock, G. (2012). Direct Strength Method of Design for Shear: The Third Dimension. Sixth International Conference on Coupled Instabilities in Metal Structures CIMS2012, Scotland: Loughborough University.
  • Pham, C., Hancock, G. (2012). Elastic buckling of cold-formed channel sections in shear. Thin Walled Structures, 61, 22-26. [More Information]
  • Pham, C., Hancock, G. (2012). Elastic Shear Buckling of Cold-Formed Channels: Comparisons of Semi-Analytical Finite Strip and Spline Finite Strip Methods. Sixth International Conference on Coupled Instabilities in Metal Structures CIMS2012, Scotland: Loughborough University.
  • Pham, C., Davis, A., Emmett, B. (2012). Experimental and Numerical Investigations of High Strength Cold-Formed Lapped Z Purlins under Combined Bending and Shear. 21st International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, S., Pham, C., Hancock, G. (2012). Shear Buckling of Thin-Walled Channel Sections with Complex Stiffened Webs. 21st International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, C., Hancock, G. (2012). Tension field action for cold-formed sections in shear. Journal of Constructional Steel Research, 72, 168-178.

2011

  • Pham, C., Hancock, G. (2011). Elastic Buckling of Cold-Formed Channel Sections in Shear. 6th International Conference on Thin Walled Structures, Mem Martins, Portugal: ECCS European Convention for Constructional Steelwork. [More Information]
  • Pham, C., Hancock, G. (2011). Tension Field Action for Cold-Formed Channel Sections in Shear. 6th International Conference on Thin Walled Structures, Mem Martins, Portugal: ECCS European Convention for Constructional Steelwork.

2010

  • Pham, C., Hancock, G. (2010). Direct Strength Design of Cold-Formed C-Sections for Shear. 20th International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, C., Hancock, G. (2010). Direct Strength Design of Cold-Formed C-Sections in Combined Bending and Shear. 20th International Specialty Conference on Cold-Formed Steel Structures, Rolla, Missouri: Missouri University of Science and Technology.
  • Pham, C., Hancock, G. (2010). Direct Strength Design of Cold-Formed Sections for Shear and Combined Actions. International Colloquium on Stability and Ductility of Steel Structures (SDSS 2010), Brazil: Federal University of Rio de Janeiro.
  • Pham, C., Hancock, G. (2010). Experimental Investigation of High Strength Cold-Formed C-Sections in Combined Bending and Shear. Journal of Structural Engineering, 136(7), 866-878.
  • Pham, C., Hancock, G. (2010). Experimental Investigation of High Strength Cold-Formed SupaCee Sections in Shear. International Colloquium on Stability and Ductility of Steel Structures (SDSS 2010), Brazil: Federal University of Rio de Janeiro.
  • Pham, C., Hancock, G. (2010). Finite Element Analyses of High Strength Cold-Formed SupaCee Sections in Shear. International Colloquium on Stability and Ductility of Steel Structures (SDSS 2010), Brazil: Federal University of Rio de Janeiro.
  • Pham, C., Hancock, G. (2010). Numerical simulation of high strength cold-formed purlins in combined bending and shear. Journal of Constructional Steel Research, 66(10), 1205-1217. [More Information]
  • Pham, C., Hancock, G. (2010). Response to Discussion on "Shear buckling of thin-walled sections". Journal of Constructional Steel Research, 66(4), 606-606. [More Information]

2009

  • Pham, C., Hancock, G. (2009). Direct Strength Design of Cold-Formed Purlins. Journal of Structural Engineering, 135(3), 229-238.
  • Pham, C., Hancock, G. (2009). Shear buckling of thin-walled channel sections. Journal of Constructional Steel Research, 65(3), 578-585. [More Information]
  • Pham, C., Hancock, G. (2009). Shear buckling of thin-walled channel sections with intermediate web stiffener. Sixth International Conference on Advances in Steel Structures, Hong Kong: Hong Kong Institute of Steel Construction.

2008

  • Pham, C., Hancock, G. (2008). Buckling Studies of Thin-Walled Channel Sections in Shear. Fifth International Conference on Thin-Walled Structures, Brisbane, Australia: Queensland University of Technology.
  • Pham, C., Hancock, G. (2008). Buckling Studies of Thin-Walled Channel Sections under Combined Bending and Shear. Nineteen International Specialty Conference, St Louis, Missouri: Missouri University of Science & Technology.
  • Pham, C., Hancock, G. (2008). Direct Strength Design of Cold-Formed Purlins. Fifth International Conference on Thin-Walled Structures, Brisbane, Australia: Queensland University of Technology.

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