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Inelastic analysis of RC beam-column subassemblages under various loading histories

  • You, Young-Chan (Building Structure & Production Division, Korea Institute of Construction Technology) ;
  • Yi, Waon-Ho (Department of Architectural Engineering, Kwang Woon University) ;
  • Lee, Li-Hyung (Department of Architectural Engineering, Han Yang University)
  • 발행 : 1999.01.25

초록

The purpose of this study is to propose an analytical model for the simulation of the hysteretic behavior of RC (reinforced concrete) beam-column subassemblages under various loading histories. The discrete line element with inelastic rotational springs is adopted to model the different locations of the plastic hinging zone. The hysteresis model can be adopted for a dynamic two-dimensional inelastic analysis of RC frame structures. From the analysis of test results it is found that the stiffness deterioration caused by inelastic loading can be simulated with a function of basic pinching coefficients, ductility ratio and yield strength ratio of members. A new strength degradation coefficient is proposed to simulate the inelastic behavior of members as a function of the transverse steel spacing and section aspect ratio. The energy dissipation capacities calculated using the proposed model show a good agreement with test results within errors of 27%.

키워드

참고문헌

  1. AI-Haddad, M.S. and Wight, J.K. (1986), "Feasibility and consequences of moving beam plastic hinging zones for earthquake resistant design of R/C buildings" , The University of Michigan, Ann Arbor.
  2. Arzoumanidis, S. and Meyer, C. (1981), "Modeling reinforced concrete beams subjected to cyclic loads", Technical Report No. NSF-PER-7924695-CU-1 , Columbia University, March.
  3. Brown, R.H. and Jirsa, J.O. (1971), "Reinforced concrete beams under load reversals", ACI J., 68(5), 380-390.
  4. Chung, Y.S., Meyer, C. and Shinozuka, M. (1989), "Modeling of concrete damage", ACI Structural Journal, 86(3), 259-271.
  5. Giberson, M.F. (1967), "The response of nonlinear multi-story structures subjected to earthquake excitation" , Ph.D. Thesis, California Institute of Technology, Pasadena, California.
  6. Giberson, M.F. (1969), "Two nonlinear beams with definition of ductility" , J. Strut. Div., ASCE, 95(2), 137-157.
  7. Guan, H. and Loo, Y.C. (1977), "Layered finite element method in cracking and failure analysis of RC beams and beam-column-slab connections" , Structural Engineering and Mechanics, 5(5), 645-666
  8. Hwang, T.H. and Scribner, C.F. (1984), "R/C member cyclic responses during various loading", J. Struct. Eng., ASCE, 110(3), 477-489. https://doi.org/10.1061/(ASCE)0733-9445(1984)110:3(477)
  9. Lee, L.H. and Kim, Y.I. (1989), "Shear reinforcement and relocating plastic hinging zones of R/C beams subjected to cyclic load" , Proc., Architectural Institute of Korea, 18(2), 627-630.
  10. Ma, S.M., Bertero, V.V. and Popov, E.P. (1976), "Experimental and analytical studies on hysteretic behavior of reinforced concrete rectangular and T-beams", Report No. EERC 76-2, Earthquake Eng. Center, University of California, Berkeley, California.
  11. Mander, J.B., Priestley, M.J. and Park, R. (1988), "Theoretical stress-strain model for confined concrete", J. Strut. Eng., ASCE, 114(8), 1804-1826. https://doi.org/10.1061/(ASCE)0733-9445(1988)114:8(1804)
  12. Nmai, C.K. and Darwin, D. (1986), "Lightly reinforced concrete beams under load reversals" , ACI J., 83(9), 777-783.
  13. Noguchi, H. and Kashiwazaki, T. (1997), "Finite element analysis of RC beam-column joints with high strength materials" , Structural Engineering and Mechanics, 5(5), 625-635 https://doi.org/10.12989/sem.1997.5.5.625
  14. Otani, S. and Sozen, M.A. (1972), "Behavior of multistory reinforced concrete frames during earthquake", Civil Engineering Studies, Structural Research Series No. 392, University of Illinois, Urbana, November.
  15. Otani, S. (1974), "Inelastic analysis of RIC frame structure" , J. Strut. Div., ASCE, 100(7), 1433-1449.
  16. Ozcebe, G. and Saatcioglu, M. (1989), "Hysteretic shear model for reinforced concrete members" , J. Strut. Eng., ASCE, 115(1), 132-149. https://doi.org/10.1061/(ASCE)0733-9445(1989)115:1(132)
  17. Roufaiel, M.S.L. and Meyer, C. (1987), "Analytical modeling of hysteretic behavior of R/C frames" , J. Strut. Div., ASCE, 113(3), 429-443. https://doi.org/10.1061/(ASCE)0733-9445(1987)113:3(429)
  18. Roufaiel, M.S.L. and Meyer, C. (1983), "Analysis of damaged concrete frame for cyclic loads", Earthquake Eng. and Struct. Dynamic, 11(?), 207-228. https://doi.org/10.1002/eqe.4290110205
  19. Scribner, C.. and Wight, J. K. (1980), "Strength decay in reinforced concrete beams under load reversals" , J. Strut. Div., ASCE, 106(4), 861-875.
  20. Seo, S.Y. (1990), "Analysis of hysteretic behavior of R/C members subjected to load reversals - Single component model having the finite size of plastic regions-" , MS Thesis, Department of Architectural Engineering, Han Yang University, Seoul, Korea.
  21. Shiha, B.P., Gerstle, K.H. and Tulin, L.G. (1964), "Stress-strain relationship for concrete under cyclic loading", ACI J., 61(2), 195-211.
  22. Takeda, T., Sozen, M.A. and Nielson, N.N. (1970), "Reinforced concrete response to simulated earthquakes", J. Strut. Div., ASCE, 96(7), 2557-2573.