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Reliability of base-isolated structures with sliding hydromagnetic bearings considering stochastic ground motions

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Abstract
Stochastic seismic response analysis and reliability assessment of a base-isolated structure with sliding hydro-magnetic bearings are performed combining the probability density evolution method and the stochastic func-tion model of seismic ground motions. The reliability assessments are based on the extreme value distribution of the inter-story drifts of the base-isolated structure. Compared with the responses of the base-fixed struc-ture, the superstructure of the base-isolated structure almost behaves like a rigid body. The sliding hydromag-netic bearing is efficient in reducing the responses by one degree of seismic intensity. Finally, the dynamic re-liability of the base-isolated structure is evaluated, which provides an index for decision making in practice.

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MLA
Ding, Luchuan et al. “Reliability of Base-isolated Structures with Sliding Hydromagnetic Bearings Considering Stochastic Ground Motions.” Life-cycle Analysis and Assessment in Civil Engineering : Towards an Integrated Vision. Ed. Robby Caspeele, Luc Taerwe, & Dan M. Frangopol. London: Taylor & Francis , 2019. 2819–2826. Print.
APA
Ding, Luchuan, Van Coile, R., Caspeele, R., Peng, Y., & Chen, J. (2019). Reliability of base-isolated structures with sliding hydromagnetic bearings considering stochastic ground motions. In R. Caspeele, L. Taerwe, & D. M. Frangopol (Eds.), LIFE-CYCLE ANALYSIS AND ASSESSMENT IN CIVIL ENGINEERING : TOWARDS AN INTEGRATED VISION (pp. 2819–2826). Presented at the 6th International Symposium on Life-Cycle Civil Engineering (IALCCE), London: Taylor & Francis .
Chicago author-date
Ding, Luchuan, Ruben Van Coile, Robby Caspeele, YongBo Peng, and Jianbing Chen. 2019. “Reliability of Base-isolated Structures with Sliding Hydromagnetic Bearings Considering Stochastic Ground Motions.” In Life-cycle Analysis and Assessment in Civil Engineering : Towards an Integrated Vision, ed. Robby Caspeele, Luc Taerwe, and Dan M. Frangopol, 2819–2826. London: Taylor & Francis .
Chicago author-date (all authors)
Ding, Luchuan, Ruben Van Coile, Robby Caspeele, YongBo Peng, and Jianbing Chen. 2019. “Reliability of Base-isolated Structures with Sliding Hydromagnetic Bearings Considering Stochastic Ground Motions.” In Life-cycle Analysis and Assessment in Civil Engineering : Towards an Integrated Vision, ed. Robby Caspeele, Luc Taerwe, and Dan M. Frangopol, 2819–2826. London: Taylor & Francis .
Vancouver
1.
Ding L, Van Coile R, Caspeele R, Peng Y, Chen J. Reliability of base-isolated structures with sliding hydromagnetic bearings considering stochastic ground motions. In: Caspeele R, Taerwe L, Frangopol DM, editors. LIFE-CYCLE ANALYSIS AND ASSESSMENT IN CIVIL ENGINEERING : TOWARDS AN INTEGRATED VISION. London: Taylor & Francis ; 2019. p. 2819–26.
IEEE
[1]
L. Ding, R. Van Coile, R. Caspeele, Y. Peng, and J. Chen, “Reliability of base-isolated structures with sliding hydromagnetic bearings considering stochastic ground motions,” in LIFE-CYCLE ANALYSIS AND ASSESSMENT IN CIVIL ENGINEERING : TOWARDS AN INTEGRATED VISION, Ghent,Belgium, 2019, pp. 2819–2826.
@inproceedings{8579637,
  abstract     = {Stochastic seismic response analysis and reliability assessment of a base-isolated structure with sliding hydro-magnetic bearings are performed combining the probability density evolution method and the stochastic func-tion model of seismic ground motions. The reliability assessments are based on the extreme value distribution of the inter-story drifts of the base-isolated structure. Compared with the responses of the base-fixed struc-ture, the superstructure of the base-isolated structure almost behaves like a rigid body. The sliding hydromag-netic bearing is efficient in reducing the responses by one degree of seismic intensity. Finally, the dynamic re-liability of the base-isolated structure is evaluated, which provides an index for decision making in practice.},
  author       = {Ding, Luchuan and Van Coile, Ruben and Caspeele, Robby and Peng, YongBo and Chen, Jianbing},
  booktitle    = {LIFE-CYCLE ANALYSIS AND ASSESSMENT IN CIVIL ENGINEERING : TOWARDS AN INTEGRATED VISION},
  editor       = {Caspeele, Robby and Taerwe, Luc and Frangopol, Dan M.},
  isbn         = {9781138626331 },
  issn         = {2161-3907},
  language     = {eng},
  location     = {Ghent,Belgium},
  pages        = {2819--2826},
  publisher    = {Taylor & Francis },
  title        = {Reliability of base-isolated structures with sliding hydromagnetic bearings considering stochastic ground motions},
  year         = {2019},
}

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