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Australian Journal of Civil Engineering Volume 20, 2022 - Issue 2
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Research Article

Shear behaviour of screw connections in plasterboard sheathed cold- formed steel-framed ceiling diaphragms: experimental and comparative study

Ismail Saifullaha Professor, Department of Civil Engineering, Khulna University of Engineering &Technology, BangladeshCorrespondence[email protected]
View further author information
,
Emad Gadb Professor and Dean, School of Engineering, Faculty of Science, Engineering and Technology, Swinburne University of Technology, AustraliaView further author information
,
Rojit Shahic Senior Structural Engineer, Van der Meer Consulting., Victoria 3000, AustraliaView further author information
,
John Wilsond Professor, Swinburne University of Technology, Sarawak, MalaysiaView further author information
,
Nelson Lame Professor, Department of Infrastructure, The University of Melbourne, AustraliaView further author information
&
Ken Watsonf Executive Director, National Association of Steel-framed Housing (NASH), AustraliaView further author information
Pages 326-344 | Received 18 Dec 2020, Accepted 19 Aug 2021, Published online: 09 Jan 2022

References

  • ASTM D1761. 2012. Standard Test Methods for Mechanical Fasteners in Wood. Annual Book of Standards,Vol. 4 West Conshohocken, PA: 10
  • Albert, T. J., and J. W. Johnson. 1967. “Lateral Holding Capacity of Power-driven Fasteners.” Forest Prod. J 17 (9): 59–67.
  • Anderson, G. A. (1990). What Affects the Strength and Stiffness of Diaphragms? American Society of Agricultural Engineers, Paper No. 90–4028.
  • Andreason, K., and J. R. Tissell (1994). Effects of Overdriven Nails in Shear Walls. APAReport, 94, 9.
  • ASTM E455. 2004. Standard Test Method for Static Load Testing of Framed Floor or Roof Diaphragm Constructions for Buildings. West Conshohocken, PA: Annual Book of Standards.
  • Baran, E., and C. Alica. 2012. “Behavior of Cold-formed Steel Wall Panels under Monotonic Horizontal Loading.” Journal of Constructional Steel Research 79: 1–8.
  • Buonopane, S. G., G. Bian, T. H. Tun, and B. W. Schafer. 2015. “Computationally Efficient Fastener-based Models of Cold-formed Steel Shear Walls with Wood Sheathing.” Journal of Constructional Steel Research 110: 137–148.
  • Deam, B. L. (1996). The Seismic Design and Behaviour of Multi-storey Plywood Sheathed Timber Framed Shearwalls. PhD Dissertation, University of Canterbury, New Zealand.
  • Dinehart, D. W., and H. W. Shenton III. 2000. “Model for Dynamic Analysis of Wood Frame Shear Walls.” Journal of Engineering Mechanics 126 (9): 899–908.
  • Dolan, J. D., S. T. Gutshall, and T. E. McLain (1994). Monotonic and Cyclic Tests to Determine Short Term Duration of Load Performance of Nail and Bolt Connections: Volume I: Summary Report. Timber Engineering Report TE 1994, 1
  • Falk, R. H., and R. Y. Itani. 1989. “Finite Element Modeling of Wood Diaphragms.” Journal of Structural Engineering 115 (3): 543–559.
  • Fiorino, L., G. Della Corte, and R. Landolfo. 2007. “Experimental Tests on Typical Screw Connections for Cold-formed Steel Housing.” Engineering Structures 29 (8): 1761–1773.
  • Foliente, G.C. (1995). Earthquake Performance of Light-frame Wood and Wood-based Buildings: State-of-the-art and Research Needs. Proceedings, Pacific Conference on Earthquake Engineering, Melbourne, Australia, 20–22 November, pp. 333–342.
  • Folz, B., and A. Filiatrault. 2001. “Cyclic Analysis of Wood Shear Walls.” Journal of Structural Engineering 127 (4): 433–441.
  • Fonseca, F. S., S. K. Rose, and S. H. Campbell. 2002. “Nail, Wood Screw, and Staple Fastener Connections.” In Consortium of Universities for Research in Earthquake Engineering (W-16) . Richmond, CA 94804.
  • Fülöp, L. A., and D. Dubina. 2006. “Design Criteria for Seam and Sheeting-to-framing Connections of Cold-formed Steel Shear Panels.” Journal of Structural Engineering 132 (4): 582–590.
  • Gad, E. F., C. F. Duffield, G. L. Hutchinson, D. S. Mansell, and G. Stark. 1999. “Lateral Performance of Cold-formed Steel-framed Domestic Structures.” Engineering Structures 21 (1): 83–95.
  • Gebremedhin, K. G. 2007. “Design and Construction Practices that Affect Diaphragm 604 Strength and Stiffness of Postframe Buildings.” Practice Periodical on Structural Design and Construction 12 (3): 153–160.
  • Gupta, A. K., and G. P. Kuo. 1987. “Wood-framed Shear Walls with Uplifting.” Journal of Structural Engineering 113 (2): 241–259.
  • Gyprock (2008), ‘Ceiling Systems Installation Guide’ Retrieved10 March 2020. http://www.gyprock.com.au/Documents/GYPROCK-570-Ceilings_Systems-200806.pdf
  • Hunt, R. D., and A. H. Bryant. 1990. “Laterally Loaded Nail Joints in Wood.” Journal of Structural Engineering 116 (1): 111–124.
  • Itani, R. Y., and C. K. Cheung. 1984. “Nonlinear Analysis of Sheathed Wood Diaphragms.” Journal of Structural Engineering 110 (9): 2137–2147.
  • Iuorio, O., and B. W. Schafer. 2008. “Compilation of K Values.” In A Supplemental Report for 617 AISI-COFS Project on Sheathing Braced Design of Wall Studs. Baltimore: Johns Hopkins University.
  • Jenkins, J. L., A. Polensek, and K. M. Bastendorff. 1979. “Stiffness of Nailed Wall Jointsunder Short and Long Term Lateral Loads.” Wood Science 11 (3): 145–154.
  • Jones, S. N., and F. S. Fonseca. 2002. “Capacity of Oriented Strand Board Shear Walls with Overdriven Sheathing Nails.” Journal of Structural Engineering 128 (7): 898–907.
  • Judd, J. P., and F. S. Fonseca. 2005. “Analytical Model for Sheathing-to-framing Connections in Wood Shear Walls and Diaphragms.” Journal of Structural Engineering 131 (2): 345–352.
  • Lau, P. C., and P. George. 1987. “Development of a Load-slip Test Apparatus for Nailed Joints.” Forest Products Journal 37 (11–12): 39–44.
  • Liew, Y. L., E. F. Gad, and C. F. Duffield. 2006. “Experimental and Analytical Validation of a Fastener Bearing Test as a Means of Evaluating the Bracing Characteristics of Plasterboard.” 615 Advances in Structural Engineering 9 (3): 421–432.
  • Liew, Y.L. (2003). Plasterboard as a Bracing Material: From Quality Control to Wall Performance. PhD thesis, Department of Civil and Environmental Engineering, University of Melbourne.
  • Miller, T. H., and T. Pekoz. 1993. “Behavior of Cold-formed Steel Wall Stud Assemblies.” Journal of Structural Engineering 119 (2): 641–651.
  • National Association of Steel-Framed Housing (NASH) (2014). Residential and Low-rise Steel Framing, Part 2: Design solutions.
  • Nithyadharan, M., and V. Kalyanaraman. 2011. “Experimental Study of Screw 676 Connections in CFS-calcium Silicate Board Wall Panels.” Thin-walled Structures 49 (6): 677–724.
  • Nithyadharan, M., and V. Kalyanaraman. 2012. “Behaviour of Cold-formed Steel Shear Wall Panels under Monotonic and Reversed Cyclic Loading.” Thin-walled Structures 60: 12–23.
  • Niu, K.T.(1996). A Semi-empirical Three-dimensional Stiffness Model for Metal-clad Post-frame Buildings. PhD thesis, Department of Biological and Environmental Engineering, Cornell University, New York.
  • Ohashi, Y., and I. Sakamoto (1988). Effect of Horizontal Diaphragm on Behavior of Wooden Dwellings Subjected to Lateral Loads–Experimental Study on a Real Size Frame Model. In Proceedings of International Conference on Timber Engineering, September 19-22 Washington, USA pp. ().
  • Pellicane, P. J., and J. Bodig. 1984. “Comparison of Nailed Joint Test Methods.” Journal of Testing and Evaluation 12 (5): 261–267.
  • Richard, N., L. Daudeville, H. Prion, and F. Lam. 2002. “Timber Shear Walls with Large Openings: Experimental and Numerical Prediction of the Structural Behaviour.” Canadian Journal of Civil Engineering 29 (5): 713–724.
  • Saifullah, I. (2016). Performance of Ceiling Diaphragms in Steel-Framed Domestic Structures Subjected to Wind Loading. PhD thesis, Swinburne University of Technology, Australia.
  • Saifullah, I., E. F. Gad, J. L. Wilson, N. T. K. Lam, and K. Watson (2012). Review of Diaphragm Actions in Domestic Structures. Australasian Conference on the Mechanics of Structures and Materials, December 11-14, Sydney, Australia
  • Saifullah, I., E. Gad, R. Shahi, J. Wilson, N. Lam, and K. Watson. 2019. “Behaviour of Plasterboard-lined Steel-framed Ceiling Diaphragms.” Thin-Walled Structures 141: 1–14.
  • Soltis, L., and P. Mtenga. 1985. “Strength of Nailed Wood Joints Subjected to Dynamic Load.” Forest Products Journal 35 (11): 14–18.
  • Standards Association of Australia/New Zealand (1998). AS/NZS 2588: Gypsum plasterboard.
  • Stewart, W. G. (1987). The Seismic Design of Plywood Sheathed Shearwalls. PhD thesis, University of Canterbury, Christchurch, New Zealand.
  • Stone, J. L., M. D. Vanderbilt, M. E. Criswell, and J. Bodig (1980). Generalized Load Slip Curve for Nailed Connections, Structural Research Report No. 30, Department of Civil Engineering, Colorado State University, Colorado.
  • Tumbull, J. E., K. C. McMartin, A. T. Quaile, J. E. Turnbull, K. C. McMartin, and A. T. Quaile. 1982. “Structural Performance of Plywood and Steel Ceiling Diaphragms.” Canadian Agricultural Engineering 24 (2): 135.
  • Vieira, Jr, L. C., and B. W. Schafer. 2009. “Experimental Results for Translational Stiffness of Stud-sheathing Assemblies. In.” In A Supplemental Report for AISI-COFS Project on Sheathing Braced Design of Wall Studs. Baltimore: Johns Hopkins University.
  • Vieira, Jr, L. C., and B. W. Schafer. 2012. “Lateral Stiffness and Strength of Sheathing Braced Cold-formed Steel Stud Walls.” Engineering Structures 37: 205–213.
  • Walker, G.R., G.N. Boughton, and D. Gonano (1982). Investigation of Diaphragm Action of Ceilings. Progress Report II, Technical Report No. 15, Department of Civil and Systems Engineering, James Cook University, Townsville, Australia.
  • Ye, J., X. Wang, and M. Zhao. 2016. “Experimental Study on Shear Behavior of Screw Connections in CFS Sheathing.” Journal of Constructional Steel Research 121: 1–12.
  • Yu, W.W. 2000. Cold-formed Steel Design. Third Edition ed. New York: John Wiley & Sons, .
  • Zacher, E. G., and R. G. Gray. 1989. “Lessons Learned from Dynamic Tests of Shear Panels.” In Proceedings, Structural Congress 89: Structural Design, Analysis and Testing, 134–142. New York,: American Society of Civil Engineers.
  • Zeynalian, M., and H. R. Ronagh. 2015. “Seismic Performance of Cold Formed Steel Walls Sheathed by Fibre-cement Board Panels.” Journal of Constructional Steel Research 107: 1–11.

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