• Title/Summary/Keyword: Escolar

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Expected damage for SDOF systems in soft soil sites: an energy-based approach

  • Quinde, Pablo;Reinoso, Eduardo;Teran-Gilmore, Amador;Ramos, Salvador
    • Earthquakes and Structures
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    • v.17 no.6
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    • pp.577-590
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    • 2019
  • The seismic response of structures to strong ground motions is a complex problem that has been studied for decades. However, most of current seismic regulations do not assess the potential level of damage that a structure may undergo during a strong earthquake. This will happen in spite that the design objectives for any structural system are formulated in terms of acceptable levels of damage. In this article, we analyze the expected damage in single-degree-of-freedom systems subjected to long-duration ground motions generated in soft soil sites, such as those located in the lakebed of Mexico City. An energy-based methodology is formulated, under the consideration of input energy as the basis for the evaluation process, to estimate expected damage. The results of the proposed methodology are validated with damage curves established directly with nonlinear dynamic analyses.

Stochastic analysis of the rocking vulnerability of irregular anchored rigid bodies: application to soils of Mexico City

  • Ramos, Salvador;Arredondo, Cesar;Reinoso, Eduardo;Leonardo-Suarez, Miguel;Torres, Marco A.
    • Earthquakes and Structures
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    • v.20 no.1
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    • pp.71-86
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    • 2021
  • This paper focuses on the development and assessment of the expected damage for the rocking response of rigid anchored blocks, with irregular geometry and non-uniform mass distribution, considering the site conditions and the seismicity of Mexico City. The non-linear behavior of the restrainers is incorporated to evaluate the pure tension and tension-shear failure mechanisms. A probabilistic framework is performed covering a wide range of block sizes, slenderness ratios and eccentricities using physics-based ground motion simulation. In order to incorporate the uncertainties related to the propagation of far-field earthquakes with a significant contribution to the seismic hazard at study sites, it was simulated a set of scenarios using a stochastic summation methods of small-earthquakes records, considered as Empirical Green's Function (EGFs). As Engineering Demand Parameter (EDP), the absolute value of the maximum block rotation normalized by the body slenderness, as a function of the peak ground acceleration (PGA) is adopted. The results show that anchorages are more efficient for blocks with slenderness ratio between two and three, while slenderness above four provide a better stability when they are not restrained. Besides, there is a range of peak intensities where anchored blocks located in soft soils are less vulnerable with respect to those located in firm soils. The procedure used in here allows to take decisions about risk, reliability and resilience assessment of different types of contents, and it is easily adaptable to other seismic environments.

First Record of the Escolar Lepidocybium flavobrunneum (Perciformes: Gempylidae) from Jeju Island, Korea (한국 제주도 근해에서 채집된 갈치꼬치과(Gempylidae) 어류 1 미기록종, Lepidocybium flavobrunneum)

  • Song, Young Sun;Myoung, Se Hun;Kim, Jin-Koo
    • Korean Journal of Ichthyology
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    • v.32 no.1
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    • pp.26-31
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    • 2020
  • A single specimen of Lepidocybium flavobrunneum (910.0 mm standard length) in the family Gempylidae, was collected off northwestern Jeju Island, Korea on April 28, 2016. The species is characterized by a blackish body, very low first dorsal fin spines, second dorsal fin rays followed by six finlets, anal fins followed by five finlets, caudal peduncle with a large keel flanked by two small supplementary keels, and a lateral line with an irregular wave pattern. Here, we propose the new Korean names "Heuk-gal-chi-ggo-chi-sok" for the genus Lepidocybium and "Heuk-gal-chi-ggo-chi" for the species L. flavobrunneum.