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Structure and Infrastructure Engineering
Maintenance, Management, Life-Cycle Design and Performance
Volume 11, 2015 - Issue 12
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Articles

Corrosion-induced cover spalling and anchorage capacity

Kamyab ZandiDepartment of Civil and Environmental Engineering, Division of Structural Engineering, Concrete Structures, Chalmers University of Technology, 412 96Gothenburg, Sweden;Material Group, CBI Swedish Cement and Concrete Research Institute, 501 15Borås, SwedenCorrespondence[email protected] [email protected]
Pages 1547-1564 | Received 10 Mar 2014, Accepted 18 Aug 2014, Published online: 03 Feb 2015

References

  • Al-Sulaimani, G.J., Kaleemullah, M., Basunbul, I.A., & Rasheeduzzafar (1990). Influence of corrosion and cracking on bond behavior and strength of reinforced concrete members. ACI Structural Journal, 87, 220–231.
  • Almusallam, A.A. (2001). Effect of degree of corrosion on the properties of reinforcing steel bars. Construction and Building Materials, 15, 361–368.
  • Almusallam, A.A., Algahtani, A.S., Aziz, A.R., Dakhil, F.H., & Rasheeduzzafar (1996). Effect of reinforcement corrosion on flexural behavior of concrete slabs. Journal of Materials in Civil Engineering, 8, 123–127.
  • Andrade, C., Alonso, C., & Molina, F.J. (1993). Cover cracking as a function of bar corrosion – 1. Experimental test. Materials and Structures, 26, 453–464.
  • Azad, A.K., Ahmad, S., & Azher, S.A. (2007). Residual strength of corrosion-damaged reinforced concrete beams. ACI Materials Journal, 104, 40–47.
  • Cabrera, J.G., & Ghoddoussi, P. (1992). The effect of reinforcement corrosion on the strength of the steel/concrete ‘bond’. In Proceedings of International Conference Bond in Concrete, Riga, Latvia, 15–17 October (pp. 10-11–10-24). Riga, Latvia: Riga Technical University.
  • Cairns, J., Plizzari, G.A., Du, Y., Law, D.W., & Franzoni, C. (2005). Mechanical properties of corrosion-damaged reinforcement. ACI Materials Journal, 102, 256–264.
  • Cairns, J., & Zhao, Z. (1993). Behaviour of concrete beams with exposed reinforcement. Proceedings of the Institution of Civil Engineers, Structures and Buildings, 99, 141–154.
  • CEB (1993). CEB-FIP model code 1990 (460 p.) Bulletin d'Information 213/214. Lausanne: CEB. ISBN: 978-0-7277-1696-5.
  • CEB (2013). CEB-FIP model code 2010  (434 p.) Fib Bulletin 55. Lausanne: Wilhelm Ernst & Sohn, Verlag für Architektur. ISBN: 978-3-433-03061-5.
  • Clark, L.A., & Saifullah, M. (1993). Effect of corrosion on reinforcement bond strength. In M. Forde (Ed.), 5th International Conference on Structural Faults and Repairs (pp. 113–119). Edinburgh: Engineering Technical Press.
  • Coronelli, D., & Gambarova, P. (2004). Structural assessment of corroded reinforced concrete beams: Modeling guidelines. ASCE Journal of Structural Engineering, 130, 1214–1224.
  • Coronelli, D., Zandi Hanjari, K., & Lundgren, K. (2013). Severely corroded RC with cover cracking. ASCE Journal of Structural Engineering, 139, 221–232.
  • Coronelli, D., Zandi Hanjari, K., Lundgren, K., & Rossi, E. (2011). Severely corroded reinforced concrete with cover cracking: Part 1. Crack initiation and propagation. In C. Andrade & G. Mancini (Eds.), Modelling of corroding concrete structures-Proceedings of the Joint fib-RILEM Workshop, Madrid, Spain, 22–23 November 2010 (pp. 195–205)
  • DIANA (2012). DIANA finite element analysis user's manual, Release 9.4.4. Delft: TNO Building and Construction Research.
  • Du, Y.G. (2001). Effect of reinforcement corrosion on structural concrete ductility  (Doctoral thesis, University of Birmingham, Birmingham, UK).
  • Du, Y.G., Chan, A.H.C., Clark, L.A., Wang, X.T., Gurkalo, F., & Bartos, S. (2013). Finite element analysis of cracking and delamination of concrete beam due to steel corrosion. Engineering Structures, 56, 8–21.
  • Du, Y.G., Clark, L.A., & Chan, A.H.C. (2005). Effect of corrosion on ductility of reinforcing bars. Magazine of Concrete Research, 57, 407–419.
  • International Federation for Structural Concrete [fib] (2000). Bulletin 10. In Bond of reinforcement in concrete, state-of-art report, prepared by Task Group Bond Models (434 p.). Lausanne: Author. ISBN 978-2-88394-050-5.
  • Higgins, C., & Farrow III, W.C. (2006). Tests of reinforced concrete beams with corrosion-damaged stirrups. ACI Structural Journal, 103, 133–141.
  • Hordijk, D.A. (1991). Local approach to fatigue of concrete  (Doctoral thesis, Delft University of Technology, Delft, The Netherlands).
  • Lundgren, K. (2005a). Bond between ribbed bars and concrete. Part 1: Modified model. Magazine of Concrete Research, 57, 371–382.
  • Lundgren, K. (2005b). Bond between ribbed bars and concrete. Part 2: The effect of corrosion. Magazine of Concrete Research, 57, 383–395.
  • Lundgren, K. (2007). Effect of corrosion on the bond between steel and concrete: An overview. Magazine of Concrete Research, 59, 447–461.
  • Lundgren, K., & Gylltoft, K. (2000). A model for the bond between concrete and reinforcement. Magazine of Concrete Research, 52, 53–63.
  • Lundgren, K., Kettil, P., Zandi Hanjari, K., Schlune, H., & San Roman, A.S. (2012). Analytical model for the bond-slip behaviour of corroded ribbed reinforcement. Structure and Infrastructure Engineering, 8, 157–169.
  • Molina, F.J., Alonso, C., & Andrade, C. (1993). Cover cracking as a function of rebar corrosion. 2. Numerical model. Materials and Structures, 26, 532–548.
  • Rasheeduzzafar, Al-Saadoun, S.S., & Al-Gahtani, A.S. (1992). Corrosion cracking in relation to bar diameter, cover, and concrete quality. Journal of Materials in Civil Engineering, 4, 327–342.
  • Regan, P.E., & Kennedy Reid, I. (2004). Shear strength of RC beams with defective stirrup anchorages. Magazine of Concrete Research, 56, 159–166.
  • Regan, P.E., & Kennedy Reid, I. (2009). Assessment of concrete structures affected by delamination: 1 – effect of bond loss. Studies and Research - Annual Review of Structural Concrete, 29, 245–275.
  • Rodriguez, J., Ortega, L.M., & Casal, J. (1995). The residual service life of reinforced concrete structures. BRITE/EURAM Project BREU CT 92 0591, Deliverable on Task 3.3: Relation between corrosion and load bearing capacity of concrete beams.
  • Rodriguez, J., Ortega, L.M., & Casal, J. (1997). Load carrying capacity of concrete structures with corroded reinforcement. Construction and Building Materials, 11, 239–248.
  • Rots, J.G. (1988). Computational modeling of concrete fracture  (Doctoral thesis, Delft University of Technology, Delft, The Netherlands).
  • Rots, J.G. (1992). Removal of finite elements in strain-softening analysis of tensile fracture. In I.Z.P. Bazant (Ed.), Fracture mechanics of concrete structures (pp. 330–338). London: Elsevier Applied Science.
  • Sæther, I. (2009). Bond deterioration of corroded steel bars in concrete. Structure and Infrastructure Engineering, 7, 415–429.
  • Silva, N. (2013). Chloride induced corrosion of reinforcement steel in concrete – threshold values and ion distributions at the concrete-steel interface  (Doctoral thesis, Chalmers University of Technology, Göteborg, Sweden).
  • Jensen, J.S., Casas, J.R., Karoumi, R., Plos, M., Cremona, C., & Melbourne, C. (2007). Guideline for load and resistance assessment of existing European railway bridges. In J. Bien, L. Elfgren, & J. Olofsson (Eds.), Sustainable bridges – Assessment for future traffic demands and longer lives (pp. 221–230). Wrocław: Dolnoslaskie Wydawnictwo Edukacyjne, Poland.
  • Thorenfeldt, E., Tomaszewicz, A., & Jensen, J.J. (1987). Mechanical properties of high-strength concrete and applications in designed. In Conference on Utilization of High-strength Concrete, Stavanger, Norway (pp. 149–159)
  • Tuutti, K. (1982). Corrosion of steel in concrete. Borås: CBI Swedish Cement and Concrete Research Institute.
  • Zandi Hanjari, K. (2010). Structural behaviour of deteriorated concrete structures  (Doctoral thesis, Chalmers University of Technology, Göteborg, Sweden).
  • Zandi Hanjari, K., Coronelli, D., & Lundgren, K. (2011a). Bond capacity of severely corroded bars with corroded stirrups. Magazine of Concrete Research, 63, 953–968.
  • Zandi Hanjari, K., Kettil, P., & Lundgren, K. (2011b). Analysis of mechanical behavior of corroded reinforced concrete structures. ACI Structural Journal, 108, 532–541.
  • Zandi Hanjari, K., Lundgren, K., Plos, M., & Coronelli, D. (2013). Three-dimensional modelling of structural effects of corroding steel reinforcement in concrete. Structure and Infrastructure Engineering, 9, 702–718.

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