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Seismic analysis of 3-D two adjacent buildings connected by viscous dampers with effect of underneath different soil kinds

  • Received : 2013.12.10
  • Accepted : 2014.05.29
  • Published : 2015.05.25

Abstract

3D two adjacent buildings with different heights founded in different kinds of soil connected with viscous dampers groups, with especial arrangement in plane, were investigated. Soil structure interaction for three different kinds of soil (stiff, medium and soft) were modeled as 3D Winkler model to give the realistic behavior of adjacent buildings connected with viscous dampers under various earthquake excitations taking in the account the effect of different kinds of soil beneath the buildings, using SAP2000n to model the whole system. A range of soil properties and soil damping characteristics are chosen which gives broad picture of connected structures system behavior resulted from the influence soil-structure interaction. Its conclusion that the response of connected structures system founded on soft soil are more critical than those founded on stiff soil. The behavior of connected structures is different from those with fixed base bigger by nearly 20%, and the efficiency of viscous dampers connecting the two adjacent buildings is reduced by nearly 25% less than those founded on stiff soil.

Keywords

References

  1. Bharti, S., Dumne, S. and Shrimali, M. (2010), "Seismic response analysis of adjacent buildings connected with MR dampers", Eng. Struct., 32(8), 2122-2133. https://doi.org/10.1016/j.engstruct.2010.03.015
  2. Computers and Structures, I. (2007), SAP2000: Integrated finite element analysis and design of structures, Berkeley, CA.
  3. Farghaly, A.A. and Ahmed, H.H. (2013), "Contribution of soil-structure interaction to seismic response of buildings", KSCE J. Civil Eng., 17(5), 959-971. https://doi.org/10.1007/s12205-013-0261-9
  4. Hadi, M.N.S. and Uz, M.E. (2009), "Improving the dynamic behaviour of adjacent buildings by connecting them with fluid viscous dampers", Proceedings of the 2nd International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, Island of Rhodes, Greece.
  5. Hou, C.Y. (2008), "Fluid dynamics and behaviour of nonlinear viscous fluid dampers", J. Struct. Eng. - ASCE , 134(1), 56-63. https://doi.org/10.1061/(ASCE)0733-9445(2008)134:1(56)
  6. Hwang, J.S., Wang, S.J., Huang, Y.N. and Chen, J.F. (2007), "A seismic retrofit method by connecting viscous dam-pers for microelectronics factories", Earthq. Eng. Struct. D., 36(11), 1461-1480. [doi:10.1002/eqe.689]
  7. Kasai, K. and Maison, B.F. (1992), "Dynamics of pounding when two buildings collide", Earthq. Eng. Struct. D., 21, 771-786. https://doi.org/10.1002/eqe.4290210903
  8. Naserkhaki, S., Aziz, A., Farah, N.A. and Hassan, P. (2012), "Parametric study on earthquake induced pounding between adjacent buildings", Struct. Eng. Mech., 43(4), 503-526. https://doi.org/10.12989/sem.2012.43.4.503
  9. Newmark, N.M. and Rosenblueth, E. (1971), Fundamentals of earthquake engineering, Prentice Hall, Englewood Cliffs, NJ.
  10. Patel, C.C. (2011), "Dynamic response of similar structures connected by viscous damper", Int. J. Earth Sci. Eng., 4(6), 903-906.
  11. Patel, C.C. and Jangid, R.S. (2010), "Seismic response of adjacent structures connected with maxwell dampers", Asian J. Civil Eng., (Building and Housing) 11(5), 585-603.
  12. Patel, C.C. and Jangid, R.S. (2008), "Influence of soil-structure interaction on response of adjacent SDOF structures connected by viscous damper", Proceedings of the 12th International Conference of International Association for Computer Methods and Advances in Geomechanics (IACMAG), 1-6 October. Goa, India.
  13. Qi, X.X. and Chang, K.L. (1995), "Study of application of viscous dampers in seismic joints", Proceedings of the International Conference on Structural Dynamics, Vibration, Noise and Control, Hong Kong.
  14. Skrekas, P., Sextos, A. and Giaralis, A. (2014), "Influence of bi-directional seismic pounding on the inelastic demand distribution of three Adjacent multi-storey R/C Buildings", Earthq. Struct., 6(1), 71-87. https://doi.org/10.12989/eas.2014.6.1.071
  15. Tesfamariam, S. and Saatcioglu, M. (2010), "Seismic vulnerability assessment of reinforced concrete buildings using hierarchical fuzzy rule base modeling", Earthq. Spectra, 26(1), 235-256. https://doi.org/10.1193/1.3280115
  16. Tezcan, S.S. and Uluca, O. (2003), "Reduction of earthquake response of plane frame buildings by viscoelastic dampers", Eng. Struct., 25(14), 1755- 1761. https://doi.org/10.1016/j.engstruct.2003.07.001
  17. Uz, M. and Hadi, M.N.S. (2009), Improving the dynamic behaviour of adjacent buildings by connecting them with fluid viscous dampers, Master of Engineering - Research thesis, School of Civil, Mining and Environmental Engineering, University of Wollongong, http://ro.uow.edu.au/theses/3429.
  18. Warnotte, V., Stoica, D. and Majewski, S. (2007), "State of the art in the pounding mitigation techniques", Struct. Mech., 4(3), 102-117.
  19. Xu, Y.L., He, Q. and Ko, J.M. (1999), "Dynamic response of damper-connected adjacent buildings under earthquake excitation", Eng. Struct., 21(2), 135-148. https://doi.org/10.1016/S0141-0296(97)00154-5

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