[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2007.26.5.569

Modeling of cyclic bond deterioration in RC beam-column connections

Picon-Rodriguez, Ricardo (Dept. of Structural Engineering, Lisandro Alvarado University)
Quintero-Febres, Carlos (Dept. of Structural Engineering, University of Los Andes)
Florez-Lopez, Julio (Dept. of Structural Engineering, University of Los Andes)

Publication Information

Structural Engineering and Mechanics / v.26, no.5, 2007 , pp. 569-589 More about this Journal

Abstract

This paper presents an analytical model for RC beam-column connections that takes into account bond deterioration between reinforcing steel and concrete. The model is based on the Lumped Damage Mechanics (LDM) theory which allows for the characterization of cracking, degradation and yielding, and is extended in this paper by the inclusion of the slip effect as observed in those connections. Slip is assumed to be lumped at inelastic hinges. Thus, the concept of "slip hinge", based on the Coulomb friction plasticity theory, is formulated. The influence of cracking on the slip behavior is taken into account by using two concepts of LDM: the effective moment on an inelastic hinge and the strain equivalence hypothesis. The model is particularly suitable for wide beam-column connections for which bond deterioration dominates the hysteretic response. The model was evaluated by the numerical simulation of five tests reported in the literature. It is found that the model reproduces closely the observed behavior.

Keywords

R/C wide beam-column connection; bond deterioration; reinforcement slip; pinching in behavior loops; bond strengths; lumped damage mechanics; inelastic hinges; slip hinge;

Citations & Related Records

Times Cited By Web Of Science : 2 (Related Records In Web of Science)
Times Cited By SCOPUS : 1

Reference
Cited By SCOPUS

1	Anderson, J.C. and Towsand, W.H. (1977), 'Models for RC frames with degrading stiffness', J. Struct. Div., ASCE, 103(ST12), 2361-2376
2	Aoyama, H. (1964), 'Moment curvature characteristics of reinforced concrete members subjected to axial load and reversal of bending', Proc. of the Int. Symposium on Flexural Mechanics of Reinforced Concrete, Miami, Florida
3	Aoyama, H. and Sugano, T. (1968), 'A generalized inelastic analysis of reinforced concrete structures based on tests of members', Recent Researchs of Structural Mechanics - Contributions in Honor of the 60th Birthday of Prof. Y. Tsuboi, Uno Shoten, Tokyo, Japan, 15-30
4	Bouc, R. (1967), 'Forced vibration of mechanical systems with hysteresis', Proc. 4th Conf. on Non-linear Oscillations
5	Cipollina, A., Lopez-Inojosa, A. and Florez-Lopez, J. (1995), 'A simplified damage mechanics approach to nonlinear analysis of frames', Comput. Struct., 54(6), 1113-1126 DOI ScienceOn
6	Clough, R.W and Jonston, S.B. (1966), 'Effect of stiffness degradation on earthquake ductility requirements', Proc. of Japan Earthq. Eng. Symp., October
7	Filippou, F.C. and Issa, A. (1988), 'Nonlinear analysis of reinforced concrete frames under cyclic load reversals', Report No. EERC-88/12, Univ. of California, Berkeley, California, 120
8	FIorez-Lopez, J. (1993), 'Calcul simplifie de portiques endommageables', Revue europeenne des elements finits/ Eur. J. Finite Elem., 2(1), 47-74
9	Florez-Lopez, J. (1998), 'Frame analysis and continuum damage mechanics', Eur. J. Mechanics A/Solid, 17(2), 269-284 DOI ScienceOn
10	Gastebled, O.J. and May, L.M. (2000), 'Numerical simulation of pulled specimens', ACI Struct. J, 97(2), 308-315
11	Hatamoto, H., Bessho, S. and Matsuzaki, Y. (1991), 'Reinforced concrete wide-beam-column subassemblages subjected to lateral load', Desing of Beam-Column Joints for Seismic Resistance, SP 123. ACI. 291-315
12	Iwan, WD. (1973), 'A model for the dynamic analysis of deteriorating structures', Proc. of 5th WCEE, Rome
13	Kurose, Y. (1987), 'Recent studies on reinforced concrete beam-column joints in Japan', PMFSEL report No. 87-8, Departament Civil Engineering, The University of Texas at Austin, December
14	La Fave and Wight, J.K. (1999), 'Reinforced concrete exterior wide beam-column slab connections subjected to lateral earthquake loading', ACI Struct. J., 96-S64
15	Nakata, S., Sproul, T. and Penzien, J. (1978), 'Mathematical modeling of hysteresis loops for reinforced concrete columns', UCB/EERC Report 78-11, University of California, Berkeley, June
16	Nielsen, M.P. (1999), Limit Analysis and Concrete Plasticity, CRS Press
17	Nilson, A.H. and Winter, G (1991), Design of Concrete Structures, McGraw-Hill, Inc., New York
18	Park, Y.J., Reinhorn, A.M. and Kunnath, S.K. (1987), 'IDARC: Inelastic damage analysis of reinforced concrete frame - shear-wall structures', Tech. Rep. NCEER-87-0008, State University of New York at Buffalo, Buffalo, N.Y
19	Picon, R. (1999), 'Evolucion de la degradacion de rigidez en porticos de concreto armado: implementacion en abaqus del modelo histeretico de dano considerando la fatiga de bajo ciclaje', (In Spanish) M.Sc. Thesis University of Los Andes, Merida, Venezuela
20	Picon, R. and Florez-Lopez, J. (2000), 'Evolucion de la degradacion de rigidez en porticos de concreto armado' (in Spanish) Proc. of XIX Jornadas Sudamericanas de Ingenieria Estructural. Uruguay
21	Quintero-Febres, C. and Wight, J. (2001), 'Experimental study of reinforced concrete interior wide beam-column connection subjected to lateral loading', ACI Struct. J, 98(4) 572-582
22	Saiidi, M. and Sozen, M.A. (1979), 'Simple and complex models for nonlinear seismic response of reinforced concrete structure', Structural Research Series No. 465, Civil Engineering Studies, University of Illinois, Urbana, I11., Aug
23	Reinhorn, A.M., Madan, A., Valles, R.E., Reichmann, Y. and Mander, J.B. (1995), 'Modeling of masonry infill panels for structural analysis', Tech. Rep. NCEER-95-0018, State University of New York at Buffalo, Buffalo, N.Y
24	Roufaiel, M.S.L. and Meyer, C. (1983), 'Analysis of damage concrete frames buildings', Report No. NSF-CEE81-21359-1, Dept. of Civ. Engrg. and Engrg. Mech., Columbia Univ., New York
25	Saatcioglu, M., Alsiwat, J.M. and Ozcebec, G. (1992), 'Hysteretic behavior of anchorage slip in RC members', J. Struct. Eng., 118(9), 2439-2458 DOI
26	Salencon J. (1983), 'Calcul a la rupture et analyse limite' (in French), Presses de l'ecole nationale des ponts et chaussees, Paris
27	Sivaselvan, Mettupalayam V. and Reinhorn, Andrei M. (2000), 'Hysteretic models for deteriorating inelastic structures', J. Eng. Mech., 126(6), 663-640 DOI
28	Soleimani, D., Popov, E.P. and Bertero, V.V. (1979), 'Hysteretic behavior of reinforced concrete beam-column subassemblages', ACI J., 76(11), 1179-1195
29	Takeda, T., Sozen, M.A. and Nielsen, N.N. (1979), 'Reinforced concrete response to simulated earthquakes', J. Struct. Div., ASCE, 96(ST12), 2557-2573
30	Thomson, E., Bendito, A. and Florez-Lopez, J. (1998), 'Simplified model of low cycle fatigue for RC frames', J. Struct. Eng., ASCE, 124(9), 1082-1086 DOI ScienceOn
31	Vera, B. (2002), 'Determinacion de parametros para un modelo de estrangulamiento por deslizamiento de refuerzo' (in Spanish). M.Sc. Thesis, University of Los Andes, Venezuela
32	Perdomo, M.-E., Ramirez, A. and Florez-Lopez, J. (1999), 'Simulation of damage in RC frames with variable axial forces', Earthq. Eng. Struct. Dyn., 28(3), 311-328 DOI