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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

Reliability analysis of intermediate crack-induced debonding failure in FRP-strengthened concrete members

Jiawei ShiKey Laboratory of Concrete and Prestressed Concrete Structures of the Ministry of Education, Southeast University, Nanjing210096, P.R. ChinaView further author information
,
Zhishen WuKey Laboratory of Concrete and Prestressed Concrete Structures of the Ministry of Education, Southeast University, Nanjing210096, P.R. China;International Institute for Urban Systems Engineering; Southeast University, Nanjing210096, P.R. China;National and Local Unite Engineering Research Center of Basalt Fiber Production and Application Technology, Southeast University, Nanjing210096, P.R. ChinaCorrespondence[email protected]
View further author information
,
Xin WangInternational Institute for Urban Systems Engineering; Southeast University, Nanjing210096, P.R. China;National and Local Unite Engineering Research Center of Basalt Fiber Production and Application Technology, Southeast University, Nanjing210096, P.R. ChinaView further author information
&
Mohammad NooriInternational Institute for Urban Systems Engineering; Southeast University, Nanjing210096, P.R. ChinaView further author information
Pages 1651-1671 | Received 04 Apr 2014, Accepted 28 Aug 2014, Published online: 08 Dec 2014

References

  • American Concrete Institute (2008). Guide for the design and construction of externally bonded FRP systems for strengthening concrete structures. ACI 440.2R-08. Farmington Hills, MI: Author.
  • American Concrete Institute (2011). Building code requirements for structural concrete. ACI 318M-11. Farmington Hills, MI: Author.
  • American Society of Civil Engineers (2010). Minimum design loads for buildings and other structures. ASCE/SEI 7-10. Reston, VA: Author.
  • Arduini, M., Nanni, A., & Romagnolo, M. (2004). Performance of one-way reinforced concrete slabs with externally bonded fiber-reinforced polymer strengthening. ACI Structural Journal, 101, 193–201.
  • Atadero, A.A., & Karbhari, V.M. (2008). Calibration of resistance for reliability based design of externally bonded FRP composites. Composites Part B: Engineering, 39, 665–679.
  • Bakis, C.E., Bank, L.C., Brown, V.L., Cosenza, E., Davalos, J.F., Lesko, J.J., Machida, A., Rizkalla, S., & Triantafillou, T.C. (2002). Fiber reinforced polymer composites for construction state of the art review. Journal of Composites for Construction, 6, 73–87.
  • Beber, A.J., Campos, F.A., & Campagnolo, J.L. (1999). Flexural strengthening of R/C beams with CFRP sheets. Proceedings of 8th international structural faults and repair conference, London, UK.
  • Benjamin, Z.R. (2005). Effect of adhesive stiffness and CFRP geometry on the behavior of externally retrofit measures subject to monotonic loads  (Master's thesis). Pittsburgh University, Pittsburgh, PA.
  • Bonacci, J.J., & Maalej, M. (2000). Externally bonded fiber-reinforced polymer for rehabilitation of corrosion damaged concrete beams. ACI Structural Journal, 97, 703–711.
  • Breña, S.F., Bramblett, R.M., Wood, S.L., & Kreger, M.E. (2003). Increasing flexural capacity of reinforced concrete beams using carbon fiber–reinforced polymer composite. ACI Structural Journal, 100, 36–46.
  • Chan, T.K., Cheong, H.K., & Nguyen, D.M. (2001). Experimental investigation on delamination failure of CFRP strengthened beams. Proceedings of international conference on advanced technologies in design, construction, and maintenance of concrete structures, Hanoi, Vietnam.
  • Chan, T.K., & Li, X.A. (2000). Improving crack behavior of one-way slabs with carbon fiber plates. Proceedings of 4th Asia Pacific structural engineering and construction conference, Kuala Lumpur, Malaysia.
  • Chiew, S.P., Sun, Q., & Yu, Y. (2007). Flexural strength of RC beams with GFRP laminates. Journal of Composites for Construction, 11, 497–506.
  • Delaney, J. (2006). Defect criticality of FRP rehabilitated RC beams  (Master's thesis). University of California, San Diego.
  • fib (2001). Externally bonded FRP reinforcement for RC structures. fédération internationale du béton. Bulletin, 14, 51–58.
  • Galambos, T.V., Ellingwood, B., MacGregor, J.G., & Cornell, C.A. (1982). Probability based load criteria: Assessment of current design practice. Journal of the Structural Division, 108, 959–977.
  • Gao, B., Kim, J.K., & Leung, C.K.Y. (2004). Experimental study on RC beams with FRP strips bonded with rubber modified resins. Composites Science and Technology, 64, 2557–2564.
  • Garden, H.N., Quantrill, R.J., Hollaway, L.C., Thorne, A.M., & Parke, G.A.R. (1998). An experimental study of the anchorage length of carbon fiber composite plates used to strengthen reinforced concrete beams. Construction and Building Materials, 12, 203–219.
  • GB (2010). Technical code for infrastructure application of FRP composites. GB50608. Beijing, China: China Planning Press (in Chinese).
  • Grace, N.F., Abdel-Sayed, G., & Ragheb, W.F. (2002). Strengthening of concrete beams using innovative ductile fiber-reinforced polymer fabric. ACI Structural Journal, 99, 692–700.
  • Hognestad, E., Hanson, N.W., & McHenry, D. (1955). Concrete stress distribution in ultimate strength design. ACI Journal Proceedings, 52, 455–480.
  • Japan Society of Civil Engineers (2001). Recommendations for upgrading of concrete structures with use of continuous fiber sheets. JSCE Concrete Engineering Series 41. Tokyo, Japan: Japan Society of Civil Engineers (JSCE).
  • Kishi, N., Mikami, H., Sato, M., & Matsoka, K. (1998). Flexural bond behavior of RC beams externally bonded with FRP sheets. Proceedings of the Japan Concrete Institute, 20, 515–520.
  • Kishi, N., Mikami, H., & Zhang, G. (2003). Numerical analysis of debonding behavior of FRP sheet for flexural strengthening RC beams. JSCE Journal of Materials, Concrete Structures and Pavements, 58, 255–272.
  • Kotynia, R. (2005). Debonding failures of RC beams strengthened with externally bonded strips. In Proceedings of the international symposium on bond behavior of FRP in structures (pp. 247–252). Winnipeg, MB: International Institute for FRP in Construction (IIFC).
  • Kurihashi, Y., Kishi, N., Mikami, H., & Matsoka, K. (1999). Effect of load configuration on flexural bond behavior of FRP sheet in RC beams. Proceedings of the Japan Concrete Institute, 21, 1555–1560.
  • Kurihashi, Y., Kishi, N., Mikami, H., & Matsoka, K. (2000). Effect of FRP reinforcement amount on flexural bond behavior of FRP-strengthened RC beams. Proceedings of the Japan Concrete Institute, 22, 481–486.
  • Lee, S.K.L. (2005). Flexural strength of reinforced concrete beams strengthened using carbon fibre reinforced composite sheets  (Doctoral thesis). University of Southampton, UK.
  • Lu, X.Z., Teng, J.G., Ye, L.P., & Jiang, J.J. (2007). Intermediate crack debonding in FRP-strengthened RC beams: FE analysis and strength model. Journal of Composite for Construction, 11, 161–174.
  • Maalej, M., & Leong, K.S. (2005). Effect of beam size and FRP thickness on interfacial shear stress concentration and failure mode of FRP-strengthened beams. Composites Science and Technology, 65, 1148–1158.
  • Maeda, T., Komaki, H., Tsubonai, K., & Murauei, K. (2001). Strengthening effects of CFRP sheet bonding using soft resins. Proceedings of the Japan Concrete Institute, 23, 817–822.
  • Matthys, S. (2000). Structural behavior and design of concrete members strengthened with externally bonded FRP reinforcement  (Doctoral thesis). Ghent University, Belgium.
  • Mikami, H., Kishi, N., Sato, M., & Kurihashi, Y. (1999). Effect of strengthened area on bonding capacity of RC beams adhered with FRP sheet. Proceedings of the Japan Concrete Institute, 21, 1549–1554.
  • M'sBazaa, I., & Labossière, P. (1996). Strengthening of reinforced concrete beams with CFRP sheets. In Proceedings of the first international conference on composites in infrastructure, Tucson, AZ, USA (pp. 746–759). Arlington, VA: National Science Foundation.
  • Niu, H.D., Vasquez, A., & Karbhari, V.M. (2006). Effect of material configuration on strengthening of concrete slabs by CFRP composites. Composites Part B: Engineering, 37, 213–226.
  • Nowak, A.S., & Collins, K.R. (2013). Reliability of structures (2nd ed.). Boca Raton, FL: CRC Press, Taylor & Francis Group.
  • Nowak, A.S., & Szerszen, M.M. (2003). Calibration of design code for buildings (ACI 318). Part 1 – Statistical models for resistance. ACI Structural Journal, 100, 377–382.
  • Okeil, A.M., El-Tawil, S., & Shahawy, M. (2002). Flexural reliability of reinforced concrete bridge girders strengthened with carbon fiber-reinforced polymer laminates. Journal of Bridge Engineering, 7, 290–299.
  • Pan, J.L., Leung, C.K.Y., & Luo, M. (2010). Effect of multiple secondary cracks on FRP debonding from the substrate of reinforced concrete beams. Construction and Building Materials, 24, 2507–2516.
  • Pham, H.P., & Al-Mahidi, R. (2008). Reliability analysis of bridge beams retrofitted with fiber reinforced polymers. Composites Structures, 82, 177–184.
  • Plevris, N., Triantafillou, T.C., & Veneziano, D. (1995). Reliability of RC members strengthened with CFRP laminates. Journal of Structural Engineering, 121, 1037–1044.
  • Rackwitz, R., & Fiessler, B. (1978). Structural reliability under combined random load sequences. Computers and Structures, 9, 489–494.
  • Rahimi, H., & Hutchinson, A. (2001). Concrete beams strengthened with externally bonded FRP plates. Journal of Composites for Construction, 5, 44–56.
  • Rusinowski, P., & Täljsten, B. (2009). Intermediate crack induced debonding in concrete beams strengthened with CFRP plates – An experimental study. Advances in Structural Engineering, 12, 793–806.
  • Saadatmanesh, H., & Ehsani, M.R. (1991). RC beams strengthened with GFRP plates I: Experimental study. Journal of Structural Engineering, 117, 3417–3433.
  • Said, H., & Wu, Z.S. (2008). Evaluating and proposing models of predicting IC debonding failure. Journal of Composites for Construction, 12, 284–289.
  • Seim, W., Hörman, M., Karbhari, V., & Seible, F. (2001). External FRP poststrengthening of scaled concrete slabs. Journal of Composites for Construction, 5, 67–75.
  • Spadea, G., Swamy, R.N., & Bencardino, F. (2001). Strength and ductility of RC beams repaired with bonded CFRP laminates. Journal of Bridge Engineering, 6, 345–355.
  • Szerszen, M.M., & Nowak, A.S. (2003). Calibration of design code for buildings (ACI 318). Part 2 – Reliability analysis and resistance factors. ACI Structural Journal, 100, 383–391.
  • Takahashi, Y., & Sato, Y. (2003). Flexural behavior of RC beams externally reinforced with carbon fiber sheets. In Proceedings of the 6th international symposium on FRP reinforcement for concrete structures (FRPRCS-6), Singapore (pp. 237–246). Farmington Hills, MI: American Concrete Institute (ACI).
  • Takeo, K., Matsushita, H., Sagawa, Y., & Ushigome, T. (1999). Experiment of RC beam reinforced with CFRP adhesive method having variety of shear-span ratio. Proceedings of the Japan Concrete Institute, 21, 205–210.
  • Teng, J.G., Smith, S.T., Yao, J., & Chen, J.F. (2003). Intermediate crack-induced debonding in RC beams and slabs. Construction and Building Materials, 17, 447–462.
  • Tumialan, G., Serra, P., Nanni, A., & Belarbi, A. (1999). Concrete cover delamination in reinforced concrete beams strengthened with carbon fiber reinforced polymer sheets. In Proceedings of the 4th international symposium on fiber reinforced polymer reinforcement for concrete structures (FRPRCS-4), Baltimore, MD, USA (pp. 725–735). Farmington Hills, MI: American Concrete Institute (ACI).
  • Wang, N., Ellingwood, B.R., & Zureick, A.H. (2010). Reliability-based evaluation of flexural members strengthened with externally bonded fiber reinforced polymer composites. Journal of Structural Engineering, 136, 1151–1160.
  • Wieghaus, K.T., & Atadero, R.A. (2011). Effect of existing structure and FRP uncertainties on the reliability of FRP-based repair. Journal of Composites for Construction, 15, 635–643.
  • Wu, G. (2002). Experimental study and theoretical analysis on strengthening concrete structures with FRP  (Doctoral thesis). Southeast University, Nanjing, China (in Chinese).
  • Wu, Z.S., Asakura, T., Yoshizawa, H., & Hirahata, H. (1999). Experimental study on the crack spacing of RC beam strengthened with FRP sheets. Proceedings of the 54th Annual Conference of the Japan Society of Civil Engineers, 5, 704–705.
  • Wu, Z.S., Matsuzaki, T., Fukuzawa, K., & Kanda, T. (2000). Strengthening effects on RC beams with externally prestressed carbon fiber sheets. JSCE Journal of Materials, Concrete Structures and Pavements, 46, 153–165.
  • Wu, Z.S., & Niu, H.D. (2000). Study on debonding failure load of RC beams strengthened with FRP sheets. JSCE Journal of Structural Engineering, 46A, 1431–1441.
  • Wu, Z.S., & Niu, H.D. (2007). Prediction of crack-induced debonding failure in R/C structures flexurally strengthened with externally bonded FRP composites. JSCE Journal of Materials, Concrete Structures and Pavements, 63, 620–639.
  • Wu, Z.S., & Yin, J. (2003). Fracturing behaviors of FRP-strengthened concrete structures. Engineering Fracture Mechanics, 70, 1339–1355.
  • Yao, J., Teng, J.G., & Lam, L. (2005). Experimental study on intermediate crack debonding in FRP-strengthened RC flexural members. Advances in Structural Engineering, 8, 365–396.
  • Zarniç, R., Gostic, S., Bosiljkov, V., & Bokan-Bosiljkov, V. (1999). Improvement of bending load-bearing capacity by externally bonded plates. In Proceedings of creating with concrete, London (pp. 433–442). London: Thomas Telford.
  • Zhang, G.F., Kishi, N., Mikami, H., & Komuro, M. (2005). A numerical prediction method for flexural behavior of RC beams reinforced with FRP sheet. In Proceedings of the international symposium on bond behavior of FRP in structures (pp. 215–220). Winnipeg, MB: International Institute for FRP in Construction (IIFC).
  • Zong, S. (2009). Research on application of continuous basalt fiber in civil engineering  (Master's thesis). Southeast University, Nanjing, China (in Chinese).

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