Emirati Journal of Civil Engineering and Applications

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مجلد 3 عدد 2 (2025): Emirati Journal of Civil Engineering and Applications

Small scale testing of shear-bond behavior in composite deck slabs with profiled steel sheeting

  • Imad Chobaki
  • Hamza Yakub
  • Sokrates Ioannou
مقدم
June 17, 2025
منشور
2025-07-20

الملخص

This study investigates the shear-bond behavior of composite deck slabs incorporating profiled steel sheeting through a series of small-scale push-off and pull-out tests. The experimental program evaluates the influence of mechanical interlock, friction, and embossment geometry on the interface performance between concrete and steel sheeting. Specimens were prepared using galvanized steel profiles and tested under varying vertical loads to simulate realistic shear conditions. The results demonstrate that re-entrant features and embossments significantly enhance shear resistance by preventing horizontal slip and vertical separation. Frictional coefficients were quantified, and failure mechanisms were observed to resemble those in full-scale slab tests. The findings provide critical insights for developing finite element models and optimizing composite slab design, offering a cost-effective alternative to full-scale testing.

المراجع

  1. Lawson, R. M.: 'Design of Composite Slabs and Beams with Steel Decking' The Steel Construction Institute, 1989.
  2. Evans, H.R. and Wright, H.D. ‘Steel-concrete composite flooring deck structures’. In Steel-concrete composite structures: Stability and Strength. Edited by R. Narayanan, Elsevier Applied Science, London and New York, Ch. 2. pp. 21-52,1988.
  3. Zubair, A.K.M.: ‘Improvement of shear-bond in composite steel and concrete floor slabs’. Ph.D. Thesis, Civil Engineering Dept., University of Southampton, 1987, UK.
  4. Duffy C., O’Leary D. ‘Full-Scale load tests on Composite floor slabs using indented steel sheeting’. University of Salford, January 1977.
  5. O’Leary D. ‘Shear-Bond Capacity tests for QL 59 Composite slabs’. University of Salford, Department of civil Engineering, 1984.
  6. Naway, E.G. ‘Reinforced Concrete: a fundamental approach’. Prentice Hall, Englewood Cliffs, New Jersey, 1990, Ch. 10, pp. 376-418.
  7. Abrishami, H.H. and Mitchell, D. ‘Simulation of uniformed bond’. ACI Materials Journal, 1992, Vol. 89, No. 2, pp. 161-168.
  8. Cairns, J. and Abdullah, R. ‘Performance of epoxy-coated reinforcement at the serviceability limit state’. Proceedings of Institution of Civil Engineers-Structures and Buildings, 1994, Vol. 104, No. 1, pp. 61-
  9. BS5950: Part 4. ‘Code of practical for design of composite slabs with profiled steel sheeting’. British Standard Institution, London,1994.
  10. DD ENV Eurocode 4 (1994). ‘Design of Composite steel and Concrete structures’. Part 1.1. General rules and rules for buildings (with UK. National Application Document). British Standards Institution. London.
  11. Wright, H.D. and Evans, H.R. ‘Observations on the design and testing of composite floor slabs’. Steel Construction Today, 1987, No. 1, pp. 91-99.
  12. Wright, H.D., Evans, H.R. and Harding P.W. ‘The use of profiled steel sheeting in floor construction’. Journal of Constructional Steel Research, Vol. 7, Issue 4, 1987, pp. 279-295.
  13. Mäkeläinen, P. and Sun, Y. ‘The longitudinal shear behaviour of a new steel sheeting profile for composite floor slabs’. Journal of Constructional Steel Research, Volume 49, Issue 2,1999, Pages 117-128.
  14. Calixto J. and Lavall A. ‘Behavior and strength of composite slabs with ribbed decking’. Journal of Constructional Steel Research 1998, 46(1–3), pp.211–212.
  15. Crisinel, M. and Marimon, F. ‘A new simplified method for the design of composite slabs’. Journal of Constructional Steel Research 2004, 60, pp.481–491.
  16. Mohan, G., Upadhyay, A., and Kaushik, S. ‘Simplified design of composite slabs using slip block test’. Journal of Advanced Concrete Technology 2005, 3, pp.403–412.
  17. Marimuthu, V. and Seetharaman, S. ‘Experimental studies on composite deck slabs to determine the shear-bond characteristic (m-k) values of the embossed profiled sheet’. Journal of Constructional Steel Research 2007, 63, pp.791–803.
  18. Ravichandran, P. and Harini, S. ‘Review on behaviour of steel-concrete composite slabs by varying different parameters’. Proceedings of ICAMDMS 2024, Coimbatore, India, February 23–24, 2024. DOI: 10.4108/eai.23-2-2024.2346949.
  19. Eltobgy, H.H., Abdelkareem, K.M.M. and Bakhoum, M.M. ‘Experimental study on shear bond behavior of composite deck slab equipped with shear connectors’. International Journal of Scientific & Technology Research, May 2021. Available at: https://www.ijstr.org/final-print/may2021/Experimental-Study-On-Shear-Bond-Behavior-Of-Composite-Deck-Slab-Equipped-With-Shear-Connectors.pdf
  20. ‘Cognitive review of structural performance of profiled steel sheet composite slabs’. Journal of Emerging Technologies and Innovative Research, 2023, Vol. 10, Issue 3. Available at: https://www.jetir.org/papers/JETIR2303593.pdf
  21. Gambarova, P.G., Rosati, G.P. and Zasso, B. ‘Steel-to-concrete bond after concrete splitting: test results’. Materials and Structures, 1989, Vol. 22, pp. 35-47.

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