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Seismic repair of exterior R/C beam-to-column joints using two-sided and three-sided jackets

  • Tsonos, Alexander G. (Aristotel University of Thessaloniki, Division of Structural Engineering)
  • 발행 : 2002.01.25

초록

The use of local two-sided and three-sided jacketing for the repair and strengthening of reinforced concrete beam-column joints damaged by severe earthquakes is investigated experimentally and analytically. Two exterior beam-column joint specimens ($O_1$ and $O_2$) were submitted to a series of cyclic lateral loads to simulate severe earthquake damage. The specimens were typical of existing older structures built in the 1960s and 1970s. The specimens were then repaired and strengthened by local two-sided or three-sided jacketing according to UNIDO Manual guidelines. The strengthened specimens ($RO_1$ and $RO_2$) were then subjected to the same displacement history as that imposed on the original specimens. The repaired and strengthened specimens exhibited significantly higher strength, stiffness and better energy dissipation capacity than the original specimens.

키워드

참고문헌

  1. ACI-ASCE Committee 352 (1985), "Recommendations for design of beam-column joints in monolithic reinforced concrete structures (ACI 352R-85)", ACI Struct. J, 82(3), 266-283.
  2. Aguilar, J., Juarez, H., Ortega, R., and Iglesias, J. (1989), "The Mexico Earthquake of september 19, 1985. statistics of damage and of retrofitting techniques in reinforced concrete buildings affected by the 1985 Earthquake", Earthquake Spectra J., 5(1), Califorina, U.S.A., 145-151. https://doi.org/10.1193/1.1585516
  3. Alcoser, S.M., and Jirsa, J.O. (1990), "Assessment of the response of reinforced concrete frame connections redesigned by jacketing", Proc. of the Fourth U.S. National Conference on Earthquake Engineering, Califorina, U.S.A., 295-304.
  4. CEN Tech. Comm. 250/SC8 (1993)Eurocode 8: Earthquake Resistant Design of the Structures, Part 1.4 (Draft): Repair and Strengthening, CEN, Berlin.
  5. Corazao, M., Durrani, A.J., and Taylor, H. (1988), "Repair and strengthening of concrete structures damaged by earthquakes", Proc. of Ninth World Conference on Earthquake Engineering, Vol. VII, Tokyo-Kyoto, Japan, 389-395.
  6. Eurocode No 8:1993, "Earthquake resistant design of structures", Commission of European Communities, CEN/ TC 250/SC8.
  7. Gulkan, P. (1977), "The Inelastic response of repaired reinforced concrete beam-column connections", Proc. of Sixth World Conference on Earthquake Engineering, VoL III, New Delhi, India, 2473-2479.
  8. Hakuto, S., Park, R., and Tanaka, H. (2000) "Seismic load tests on interior and exterior beam-column joints with substandard reinforcing details", ACI Struct. J, 97(1), 11-25.
  9. Jara, M., Hernandez, C., Garcia, R, and Robles, F. (1989), The Mexico Earthquake of September 19, 1985. typical cases of repair and strengthening of concrete buildings", Earthquake Spectra J., 5(1), Califorioa, U.S.A., 157-193.
  10. Karayanois, C.G., Sideris, K.K., and Economou, C.M. (1995), "Response of repaired RC exterior joints under cyclic loading", Proc. 5th SECED Conference on European Seismic Design Practice Research and Application, Balkema, London, 285-292.
  11. Karayanois, C.G., and Chalioris, C.E (1998), "Repair of R/C elements damaged by seismic excitations using resin injections", Scientific Review, Ktirio, 3, 31-38.
  12. Karayannis, C., Chalioris, C., and Sideris, K. (1998), "Effectiveness of RC beam-column connection repair using epoxy resin injections", J of Earthquake Eng., 2(2), Imperial College Press, 217-240. https://doi.org/10.1142/S1363246998000101
  13. Kuroiwa, J., and Kogan, J. (1980), "Repair and strengthening of buildings damaged by earthquakes", Proc. of Seventh World Conference on Earthquake Engineering, 4, Istanbul, Turkey, 569-576.
  14. Penelis, G.G., and Kappos, A.J. (1997), "Earthquake-resistant concrete structures", Chapman & Hall, 572.
  15. Penelis, G.G. (1999), "Post-earthquake repair and strengthening of R/C structures", Keynote Lecture at the 13th Greek Conference on R/C Structures, Rethyrnnon, Kreta (in Greek) 17.
  16. Popov, E., and Bertero, V.V. (1975), "Repaired R/C members under cyclic loading", Earthq. Eng. and Struct. Dyn., John Wiley and Sons, 4,129-144. https://doi.org/10.1002/eqe.4290040204
  17. Rodriguez, M., and Park, R (1991), "Repair and strengthening of reinforced concrete buildings for seismic resistance", Earthquake Spectra J., 7(3),439-459. https://doi.org/10.1193/1.1585636
  18. Teran, A., and Ruiz, J. (1992), "Reinforced concrete jacketing of existing structures", Proc. of the Tenth World Conference on Earthquake Engineering, Madrid, Spain, 5107-5113.
  19. Tsonos, A. (1996), "Towards a new approach in the design of R/C beam-column joints", Technika Chronika, Scientific J. of the Technical Chamber of Greece, 16(1-2), 69-82.
  20. Tsonos, A.G. (1997), "Shear strength of ductile reinforced concrete beam-to-column connections, for seismic resistant structures", J. of European Earthquake Engineering, No.2, 54-64.
  21. Tsonos, A.G. (1999), "Lateral load response of strengthened reinforced concrete beam-to-column joints", ACI Struct. J., 96(1), 46-56.
  22. UNDP/UNIDO PROJECT RER/79/015, UNIDO (1983), "Repair and strengthening of reinforced concrete, stone and brick masonry buildings", Building Construction Under Seismic Conditions in the Balkan Regions, 5, Vienna, 231.

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