student profile: Mr Hong Pham


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Thesis work

Thesis title: Aspect design of cold-formed steel beams and girders

Supervisors: Gregory HANCOCK , Cao Hung PHAM

Thesis abstract:

The research focuses on the Direct Strength Method of design of cold-formed steel members subjected to shear. The members may be perforated and/or partially restrained at two ends where the tension field action may not be fully mobilised. Aspect ratios (shear span/beam depth) other than 1.0 are also investigated, aiming to apply the DSM design rules for shear to members with the aspect ratio up to 3.0, which is consistent with the current design standard for hot-rolled steel structures.

Selected publications

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Journals

  • Pham, S., Pham, C., Hancock, G. (2017). Direct Strength Method of Design for Channel Sections in Shear with Square and Circular Web Holes. Journal of Structural Engineering, 143(6), 1-8. [More Information]
  • Pham, S., Pham, C., Hancock, G. (2014). Direct strength method of design for shear including sections with longitudinal web stiffeners. Thin-Walled Structures, 81, 19-28. [More Information]

Conferences

  • Pham, S., Pham, C., Hancock, G. (2018). Review of Direct Strength Method of Design for Cold-Formed Steel Structures with Holes with a Focus on Shear. 4th Congr�s International de G�otechnique�Ouvrages�Structures (CIGOS), Singapore: Springer Singapore. [More Information]
  • Pham, S., Pham, C., Hancock, G. (2017). On the design of cold-formed steel beams with holes in shear using the direct strength method. The 8th European Conference on Steel and Composite Structures (EUROSTEEL 2017), Germany: Wilhelm Ernst und Sohn. [More Information]
  • Pham, S., Pham, C., Hancock, G. (2016). A Direct Strength Method (DSM) of Design for Channel Sections in Shear with Square and Circular Web Holes. Wei-Wen Yu International Specialty Conference on Cold-Formed Steel Structures (CCFSS 2016), 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, 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.

2018

  • Pham, S., Pham, C., Hancock, G. (2018). Review of Direct Strength Method of Design for Cold-Formed Steel Structures with Holes with a Focus on Shear. 4th Congr�s International de G�otechnique�Ouvrages�Structures (CIGOS), Singapore: Springer Singapore. [More Information]

2017

  • Pham, S., Pham, C., Hancock, G. (2017). Direct Strength Method of Design for Channel Sections in Shear with Square and Circular Web Holes. Journal of Structural Engineering, 143(6), 1-8. [More Information]
  • Pham, S., Pham, C., Hancock, G. (2017). On the design of cold-formed steel beams with holes in shear using the direct strength method. The 8th European Conference on Steel and Composite Structures (EUROSTEEL 2017), Germany: Wilhelm Ernst und Sohn. [More Information]

2016

  • Pham, S., Pham, C., Hancock, G. (2016). A Direct Strength Method (DSM) of Design for Channel Sections in Shear with Square and Circular Web Holes. Wei-Wen Yu International Specialty Conference on Cold-Formed Steel Structures (CCFSS 2016), Rolla, Missouri: Missouri University of Science and Technology.

2014

  • Pham, S., Pham, C., Hancock, G. (2014). Direct strength method of design for shear including sections with longitudinal web stiffeners. Thin-Walled Structures, 81, 19-28. [More Information]

2012

  • 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, 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.

Note: This profile is for a student at the University of Sydney. Views presented here are not necessarily those of the University.