Seismic displacement prediction methods, procedure, comparison and application

Authors

DOI:

https://doi.org/10.21754/tecnia.v33i1.1335

Keywords:

Earthquake-induced simplified displacement methods, Dynamic analysis, Measure stability, Earth dam

Abstract

The methodology in the seismic design of slopes has evolved with technological advancement and the development of geotechnical engineering. Since methods with great limitations such as pseudo-static analysis to rigorous methods that require a lot of information for a better understanding of the behavior of the soil such as the dynamic analysis.

 This article develops the procedure, comparison, and application of methods for estimating seismic displacements, which are the Newmark (1965), Sarma (1975), Makdisi & Seed (1978) and Bray, Macedo & Travasarou (2018). Each of these methods considering the criteria of each one to obtain permanent displacements, such as yield acceleration, degraded period, spectral acceleration, magnitude, etc.

 As an applicative case, a rockfill dam and core central 50 m high placed in sandstone strata and moraine deposits interspersed with shale intrusions is shown, as seismic scenarios the Lima 1974 earthquake, the Attic 2001 earthquake and the earthquake were used. of Pisco 2007, considering both NS and EW directions. Likewise, the response spectrum on the base of the failure surface, resulting from a nonlinear seismic response analysis from 3 columns in the dam, is considered as information. The methods of Newmark (1965), Sarma (1975), Makdisi & Seed (1978), and Bray, Macedo & Travasarou (2018) were applied, obtaining deformation results between 1 to 30 cm that according to their order of magnitude represent a stable condition for the dam.

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Author Biography

Luis Felipe Rojas Gomez, Facultad de Ingeniería Civil, Universidad Nacional de Ingeniería, Lima, Perú

Bachelor of the Faculty of Civil Engineering of the National University of Engineering

Geotechnical engineer at the mining consultancy ANDDES S.A.C.

Specialized in the field of Geotechnics with experience in computational analysis with finite elements and constitutive models, slope stability, soil dynamics, seismic hazard and laboratory tests for soils and rocks and geotechnical campaigns (pits and SCPTu tests).

Experience in the design of mining structures such as leaching pads, waste rock dumps and tailings deposit.

References

[1] N.M. Newmark, “Effects of Earthquakes on Dams and Embankments.” Geotechnique, vol. 15, pp. 139-160, 1965.
[2] F. Makdisi, and H. Seed, “A simplified procedure for estimating earthquake-induced deformations in dams and embankments”, Journal of the Geotechnical Engineering Division, vol. 104, pp. 849-867, 1977.
[3] D. K. Keefer, “Landslides caused by earthquakes.” Geological Society of America Bulletin, vol. 95, no. 4, pp. 406-421, 1984.
[4] S.L. Kramer, Geotechnical earthquake engineering. New Jersey, USA: Prentice-Hall, 1996.
[5] J. D Bray and T. Travasarou, “Simplified procedure for estimating earthquake-induced deviatoric slope displacements”. e Journal of Geotechnical and Geoenvironmental Engineering, vol. 133, no. 4, pp. 381-392, Apr. 2007.
[6] P. Murphy. Evaluation of Analytical Procedures for estimating seismically induced permanent deformations in Slopes, Pennsylvania, USA. Drexel University, 2010.
[7] J. D. Bray, J. Macedo, and T. Travasarou, “Simplified Procedure for Estimating Seismic Slope Displacements for Subduction Zone Earthquakes,” Journal of Geotechnical and Geoenvironmental Engineering, ASCE, vol. 144,no. 3, 2018.
[8] Dam Engineer (1997, Jul 8) Makdisi-Seed Simplified Procedure for Estimating Embankment Earthquake-Induced Deformations (1978) [Online]. Available: https://www.damengineer.com/embankments/sm.html
[9] S. K. Sarma, “Seismic Stability of Earth Dams and Embankments” Geotechnique, vol. 25, pp. 743-761, 2018.

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Published

2023-06-06

How to Cite

[1]
L. F. Rojas Gomez, L. S. Ortiz Galindo, and J. A. Cabrera Conislla, “Seismic displacement prediction methods, procedure, comparison and application”, TEC, vol. 33, no. 1, pp. 52–61, Jun. 2023.

Issue

Vol. 33 No. 1 (2023)

Section

Earthquake Engineering Design and Evaluation

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