References
- ADINA (2012), Theory and Modelling Guide, 1.
- Aoude, H., Cook, W.D. and Mitchell, D. (2013), "Two-way slab parking structures in Canada", Concrete Product Guide, 47.
- Birkle, G. and Dilger, W.H. (2008), "Influence of slab thickness on punching shear strength", ACI Struct. J., 105(2), 180-188.
- Eurocode 2 (2004), "Design of concrete structures-part 1-1: general rules and rules for buildings", EN 1992-1.
- Hegger, J., Sherif, A.G. and Ricker, M. (2006), "Experimental investigations on punching behaviour of reinforced concrete footings", ACI Struct. J., 103(4), 604-613.
- Kellermann, J.F. (1997), "Pipers row car park, wolverhampton: results of the investigation", Concrete Car Parks: Design and Maintenance Issues, Cavendish Centre, London, British Cement Association.
- Kinnunen, S., Nylander, H. and Tolf, P. (1978), "Undersokningar rorande genemostansning vid Institutionen for Byggnadsstatik, KTH, Nordisk Betong (Stockholm), 3, 25-27 (cited in Task Group 3.1/4.10, "Punching of structural concrete slabs", Technical report, Bulletin 12, fib (CEB-FIP).
- Kotsovos, G.M. and Kotsovos, M.D. (2009), "Flat slabs without shear reinforcement: criteria for punching", Struct. Eng., 87(23/24), 32-38.
- Kotsovos, G.M. and Kotsovos, M.D. (2010), "A new design method for punching of RC slabs: Verification by non-linear finite-element analysis", Struct. Eng., 88(8), 20-25.
- Kotsovos, M.D. and Pavlovic, M.N. (1995), Structural concrete: finite-element analysis for limit-state design, Thomas Telford, London, Great Britain.
- Kotsovos, M.D. (2014), Compressive force-path method: unified ultimate limit-state design of concrete "Structures", Springer, London, UK.
- Kotsovos, M.D. (2015), Finite-element modelling of structural concrete: short-term static and dynamic loading conditions, CRC Press (Taylor and Francis Group), Great Britain.
- Morsch, E. (1902), "Versuche uber Schubspannungen in Betoneisentragen", Beton und Eisen, 2(4), 269-274.
- Mosley, B., Bungey, J. and Hulse, R. (2012), "Reinforced concrete design to Eurocode 2", 7th Edition, Palgrave Macmillan, UK.
- Muttoni, A. (2008), "Punching shear strength of reinforced concrete slabs without transverse reinforcement", ACI Struct. J., 105(4), 440-450.
- New Civil Engineer (1997), "Shock collapse sparks lift slab fears and Safety experts urge car park review", 27 March/3 April, 3-4.
- Oliveira, D.R.C., Regan, P.E. and Melo, G.S.S.A. (2004), "Punching resistance of RC slabs with rectangularcolumns", Mag. Concrete Res., 56(3), 123-138. https://doi.org/10.1680/macr.2004.56.3.123
- Papanikolaou, K.V., Tegos, I.A. and Kappos, A.J. (2005), "Punching shear testing of reinforced concreteslabs and design implications", Mag. Concrete Res., 57(3), 167-177. https://doi.org/10.1680/macr.2005.57.3.167
- Ritter, W. (1899), "Die bauweise hennebique", Schweisserische Bauzeitung, 33, 59-61.
- Task Group 3.1/4.10 (2001), Punching of structural concrete slabs, Technical report, Bulletin 12, fib(CEBFIP), April.
- Yamada, T., Nanni, A. and Endo, K. (1993), "Punching shear resistance of flat slabs: Influence of reinforcement type and ratio", ACI Struct. J., 88(4), 555-563.
Cited by
- Punching Shear Failure of Concrete Ground Supported Slab vol.12, pp.1, 2018, https://doi.org/10.1186/s40069-018-0263-6
- Unified equivalent frame method for post-tensioned flat plate slab structures vol.20, pp.6, 2016, https://doi.org/10.12989/cac.2017.20.6.663
- Study of Input Parameters of Layered Half-Space used for Soil Modelling vol.15, pp.None, 2016, https://doi.org/10.37394/232011.2020.15.22
- Review of the reinforcement sizing in the strength design of reinforced concrete slabs vol.27, pp.3, 2016, https://doi.org/10.12989/cac.2021.27.3.211