Numerical Investigation for External Strengthening of Dapped-End Beams

A. Abdel-Moniem; H. Madkour; K. Farah; A. Abdullah

Open Science Index

Commenced in January 2007

Frequency: Monthly

Edition: International

Publications Count: 30523

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Numerical Investigation for External Strengthening of Dapped-End Beams

Authors:

A. Abdel-Moniem, H. Madkour, K. Farah, A. Abdullah

Abstract:

The reduction in dapped end beams depth nearby the supports tends to produce stress concentration and hence results in shear cracks, if it does not have an adequate reinforcement detailing. This study investigates numerically the efficiency of applying different external strengthening techniques to the dapped end of such beams. A two-dimensional finite element model was built to predict the structural behavior of dapped ends strengthened with different techniques. The techniques included external bonding of the steel angle at the re-entrant corner, un-bounded bolt anchoring, external steel plate jacketing, exterior carbon fiber wrapping and/or stripping and external inclined steel plates. The FE analysis results are then presented in terms of the ultimate load capacities, load-deflection and crack pattern at failure. The results showed that the FE model, at various stages, was found to be comparable to the available test data. Moreover, it enabled the capture of the failure progress, with acceptable accuracy, which is very difficult in a laboratory test.

Keywords:

Dapped-end beams, finite element, shear failure, strengthening techniques, reinforced concrete, numerical investigation.

Digital Object Identifier (DOI):

doi.org/10.5281/zenodo.10.5281/zenodo.1474911

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References:

[1] R. Herzinger, "Stud reinforcement in dapped ends of concrete beams," presented at the AICSGE 5, At Alexandria, Egypt 2008.
[2] A. H. Mattock and T. Theryo, Strength of Members With Dapped Ends: Prestressed Concrete Institute, 1986.
[3] P. I. H. Committee, "PCI design handbook: precast and prestressed concrete," ed: MNL-120. 6th ed. Chicago, IL: PCI, 2006.
[4] T. Holden, J. Restrepo, and J. B. Mander, "Seismic performance of precast reinforced and prestressed concrete walls," Journal of Structural Engineering, vol. 129, pp. 286-296, 2003.
[5] J. Hanson, "Testing and Evaluation of Pocketed Spandrel Beams," Department of Civil, Construction, and Environmental Engineering, North Carolina State University, North Carolina, USA, 2001.
[6] P.-C. Huang, "Dapped-end strengthening of precast prestressed concrete double tee beams with FRP composites," MS thesis, Univwesity of Mossouri-Rolla, 2000.
[7] P. C. Huang, Myers, J.J., and Nanni, A,. (2000). Dapped-end strengthening of precast prestressed concrete double tee beams with FRP composites.
[8] P. Valerio and T. J. Ibell, "Shear strengthening of existing concrete bridges," Proceedings of the Institution of Civil Engineers-Structures and Buildings, vol. 156, pp. 75-84, 2003.
[9] T. Fib Bulletin, "Externally bonded FRP reinforcement for RC structures," ed: International Federation for Structural Concrete Switzerland, 2001.
[10] N. R. Council, "Guide for the design and construction of externally bonded FRP systems for strengthening existing structures," CNR-DT200, 2004.
[11] A.-. Committee, "Guide for the design and construction of externally bonded FRP systems for strengthening concrete structures," ACI-440.2 R-02. Farmington Hills: American Concrete Institute, 2002.
[12] W. J. Gold, G. J. Blaszak, M. Mettemeyer, A. Nanni, and M. D. Wuerthele, "Strengthening dapped ends of precast double tees with externally bonded FRP reinforcement," in Advanced Technology in Structural Engineering, ed, 2000, pp. 1-9.
[13] S. Taher, "Strengthening of reentrant corner zone in recessed RC beams," in Eleventh International Colloquium on Structural and Geotechnical Engineering, 2005.
[14] K. H. Tan, "Shear strengthening of dapped beams using FRP systems," in FRPRCS-5: Fibre-reinforced plastics for reinforced concrete structures Volume 1: Proceedings of the fifth international conference on fibre-reinforced plastics for reinforced concrete structures, Cambridge, UK, 16–18 July 2001, 2001, pp. 249-258.
[15] P.-C. Huang and A. Nanni, "Dapped-end strengthening of full-scale prestressed double tee beams with FRP composites," Advances in Structural Engineering, vol. 9, pp. 293-308, 2006.
[16] A. M. Atta and T. F. El-Shafiey, "Strengthening of RC dapped-end beams under torsional moment," Magazine of Concrete Research, vol. 66, pp. 1065-1072, 2014.
[17] T. Nagy-György, G. Sas, A. Dăescu, J. A. Barros, and V. Stoian, "Experimental and numerical assessment of the effectiveness of FRP-based strengthening configurations for dapped-end RC beams," Engineering structures, vol. 44, pp. 291-303, 2012.
[18] U. m. ABAQUS, "Version 6.10.," in ABAQUS Documentation, ed.
[19] A. Committee, A. C. Institute, and I. O. f. Standardization, "Building code requirements for structural concrete (ACI 318-14) and commentary," 2014.
[20] D. H. Sanders, "Dapped-end T-beam supported by an inverted T-beam," Special Publication, vol. 208, pp. 91-104, 2002.
[21] J. Schlaich, "Design and Detailing Using Struts-and-Tie Models," Proc. JCI Int. Wrokshop on Shear in Concrete Structures, 1994.
[22] J. Lubliner, J. Oliver, S. Oller, and E. Onate, "A plastic-damage model for concrete," International Journal of solids and structures, vol. 25, pp. 299-326, 1989.
[23] J. Lee and G. L. Fenves, "Plastic-damage model for cyclic loading of concrete structures," Journal of engineering mechanics, vol. 124, pp. 892-900, 1998.
[24] A. M. Abdullah and C. Bailey, Analysis of repaired/strengthened RC structures using composite materials: punching shear: University of Manchester, 2010.
[25] SAE., Technical Information Handbook. Sika Egypt for Construction Chemicals Co. California, USA, 2003.
[26] B. EN, "1-2: 2004 Eurocode 2: Design of concrete structures-Part 1-2: General rules-Structural fire design," European Standards, London, 2004.
[27] A. Scanlon and D. W. Murray, "Time-dependent reinforced concrete slab deflections," Journal of the Structural Division, vol. 100, 1974.
[28] G. Sas, A. Carolin, and B. Täljsten, "A model for predicting the shear bearing capacity of FRP-strengthened beams," Mechanics of Composite Materials, vol. 44, pp. 245-256, 2008.
[29] J. Chen and J. Teng, "Anchorage strength models for FRP and steel plates bonded to concrete," Journal of structural engineering, vol. 127, pp. 784-791, 2001.

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