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Honorary Editor-in-Chief
    Prof. Shih-Chi Liu
    Division of Civil and Mechanical Systems
    The National Science Foundation, USA

Editors-in-Chief
    Prof. Alexandros - Dimitrios G. Tsonos
    Dept. of Civil Engineering
    Aristotle University of Thessaloniki, Greece

    Prof. Keh-Chyuan Tsai
    Dept. of Civil Engineering
    National Taiwan University, Taiwan

Managing Editor
    Prof. Chang-Koon Choi
    Dept. of Civil & Environmental Engineering
    Korea Advanced Inst. of Sci. & Tech., Korea


 SCOPUS
 Impact factor : 1.714(2019)
ISSN:2092-7614(Print), ISSN:2092-7622(Online)
Vol.18/19 (12 issues) for 2020, Monthly
 
Aims and Scope

The Earthquakes and Structures, An International Journal, focuses on the effects of earthquakes on civil engineering structures. The journal will serve as a powerful repository of technical information and will provide a highimpact publication platform for the global community of researchers in the traditional, as well as emerging, subdisciplines of the broader earthquake engineering field. Specifically, some of the major topics covered by the Journal include: .. characterization of strong ground motions, .. quantification of earthquake demand and structural capacity, .. design of earthquake resistant structures and foundations, .. experimental and computational methods, .. seismic regulations and building codes, .. seismic hazard assessment, .. seismic risk mitigation, .. site effects and soil-structure interaction, .. assessment, repair and strengthening of existing structures, including historic structures and monuments, and .. emerging technologies including passive control technologies, structural monitoring systems, and cyberinfrastructure tools for seismic data management, experimental applications, early warning and response
Editorial Board
Prof. Stavros A. Anagnostopoulos
University of Patras
26500, Patras, GREECE


Prof. A. Benavent-Climent
University of Granada
Granada E-18071, Spain


Prof. Rita Bento
Instituto Superior Tecnico
1049-001 Lisbon, Portugal


Prof. Shuenn-Yih Chang
Nat'l Taipei Univ. of Tech.
Taipei 106, Taiwan


Prof. C.C. Chou
National Taiwan University
Taipei 10764, Taiwan


Prof. Nawawi Chouw
University Auckland
Auckland 1010, New Zealand


Prof. M.C. Constantinou
University at Buffalo
Buffalo, NY 14260, USA


Prof. Rajesh Dhakal
University of Canterbury
Private Bag 4800, New Zealand


Prof. Aurelio Ghersi
University of Catania
Catania 95100, Italy


Prof. Russell A. Green
Virginia Tech
Blacksburg, VA 24061, USA


Prof. Jason Ingham
University of Auckland
Auckland 1010, New Zealand


Prof. R.S. Jangid
Indian Institute of Technology
Mumbai 400076, India


Prof. R. Jankowski
Gdansk University of Technology
80-233 Gdansk, Poland


Prof. H.J. Jung
Korea Adv Inst of Sci & Tech
Daejeon 305-701, Korea


Prof. Theodore L. Karavasilis
University of Warwick
Coventry, CV4 7AL, UK

Prof. Petros Komodromos
University of Cyprus
Nicosia 1678, Cyprus


Prof. S. Lagomarsino
University of Genova
Genova I-16145, Italy


Prof. Nelson Lam
The University of Melbourne
Victoria 3010, Australia


Prof. H.S. Lee
Korea University
Seoul 136-701, Korea


Prof. Chunxiang Li
Shanghai Jiao Tong University
Shanghai 200030, Peoples R China


Prof. Dimitrios G. Lignos
McGill University
Montreal, Quebec H3A 2K6, Canada


Prof. Jerome P. Lynch
University of Michigan
Ann Arbor, MI 48109-2125, USA


Prof. Fabio Mazza
University of Calabria
Rende 87036, Italy

Prof. J.L. Tassoulas
University of Texas at Austin
Austin, TX 78712-0273, USA


Prof. Amador Teran-Gilmore
Universidad Autonoma Metropolitana
Mexico City 02200, Mexico


Prof. Fabio Di Trapani
Politecnico di Torino
10129 Torino, Italy


Prof. Thanasis Triantafillou
University of Patras
Patras 265 00, Greece


Prof. Tomaso Trombetti
University of Bologna
Bologna 40136, Italy


Prof. Radu Vacareanu
Technical U of Civil Engineering
Bucharest RO-020396, Romania


Prof. Aspasia Zerva
Drexel University
Philadelphia, PA 19104, USA


Prof. Izuru Takewaki
Kyoto University
Kyoto 615-8540, Japan
Prof. C.S. Manohar
Indian Institute of Science
Bangalore 560 012, India


Prof. G. Manolis
Aristotle University
Thessaloniki 54124, Greece


Prof. Angelo Masi
University of Basilicata
Potenza, Italy


Prof. Jason P. McCormick
University of Michigan
MI 48109-2125, USA


Prof. Yuji Miyamoto
Osaka University
Osaka 565-0871, Japan


Prof. Fabrizio Mollaioli
Sapienza University of Rome
Rome 00197, Italy


Prof. Naohiro Nakamura
Hiroshima University
Hiroshima 739-8527, Japan


Prof. Camillo Nuti
The University of Rome Three
Rome 00184, Italy


Prof. S.J. Pantazopoulou
York University
Toronto, ON M3J 1P3, Canada


Prof. Apostolos Papageorgiou
University of Patras
Patras 265 00, Greece


Prof. Jorge Ruiz-Garcia
Univ Michoacana de San Nicolas de Hidalgo
Michoacan, Mexico


Prof. Haluk Sucuoglu
Middle East Technical University
Ankara TR-06531, Turkey


Dr. Timothy Sullivan
University of Pavia
Pavia I-27100, Italy










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Sample Issue
Volume 3, Number 1, January 2012
  • An empirical bracketed duration relation for stable continental regions of North America
    Jongwon Lee and Russell A. Green
    Abstract; Full Text (4962K)

Abstract
An empirical predictive relationship correlating bracketed duration to earthquake magnitude, site-to-source distance, and local site conditions (i.e. rock vs. stiff soil) for stable continental regions of North America is presented herein. The correlation was developed from data from 620 horizontal motions for central and eastern North America (CENA), consisting of 28 recorded motions and 592 scaled motions. The bracketed duration data was comprised of nonzero and zero durations. The non-linear mixed-effects regression technique was used to fit a predictive model to the nonzero duration data. To account for the zero duration data, logistic regression was conducted to model the probability of zero duration occurrences. Then, the probability models were applied as weighting functions to the NLME regression results. Comparing the bracketed durations for CENA motions with those from active shallow crustal regions (e.g. western North America: WNA), the motions in CENA have longer bracketed durations than those in the WNA. Especially for larger magnitudes at far distances, the bracketed durations in CENA tend to be significantly longer than those in WNA.

Key Words
bracketed duration; central/eastern North America ground motions; ground motion attenuation; ground motion predictive relationships; stable continental region ground motions; strong ground motion durations

Address
Jongwon Lee: Paul C. Rizzo Associates, Inc., Pittsburgh, PA, USA Russell A. Green: Department of Civil and Environmental Engineering, Virginia Tech, Blacksburg, VA, USA

  • Are theoretically calculated periods of vibration for skeletal structures error-free?
    Sameh S.F. Mehanny
    Abstract; Full Text (3450K)

Abstract
Simplified equations for fundamental period of vibration of skeletal structures provided by most seismic design provisions suffer from the absence of any associated confidence levels and of any reference to their empirical basis. Therefore, such equations may typically give a sector of designers the false impression of yielding a fairly accurate value of the period of vibration. This paper, although not addressing simplified codes equations, introduces a set of mathematical equations utilizing the theory of error propagation and First-Order Second-Moment (FOSM) techniques to determine bounds on the relative error in theoretically calculated fundamental period of vibration of skeletal structures. In a complementary step, and for verification purposes, Monte Carlo simulation technique has been also applied. The latter, despite involving larger computational effort, is expected to provide more precise estimates than FOSM methods. Studies of parametric uncertainties applied to reinforced concrete frame bents – potentially idealized as SDOF systems – are conducted demonstrating the effect of randomness and uncertainty of various relevant properties, shaping both mass and stiffness, on the variance (i.e. relative error) in the estimated period of vibration. Correlation between mass and stiffness parameters – regarded as random variables – is also thoroughly discussed. According to achieved results, a relative error in the period of vibration in the order of 19% for new designs/constructions and of about 25% for existing structures for assessment purposes – and even climbing up to about 36% in some special applications and/or circumstances – is acknowledged when adopting estimates gathered from the literature for relative errors in the relevant random input variables.

Key Words
period of vibration; mass; stiffness; error propagation; monte carlo simulation

Address
Sameh S.F. Mehanny: Structural Engineering Department, Cairo University, Dar Al-Handasah (Shair and Partners), Cairo, Egypt

  • Seismic behavior of interior RC beam-column joints with additional bars under cyclic loading
    Xilin Lu, Tonny H. Urukap, Sen Li and Fangshu Lin
    Abstract; Full Text (7096K)

Abstract
The behavior of beam-column joints in moment resisting frame structures is susceptible to damage caused by seismic effects due to poor performance of the joints. A good number of researches were carried out to understand the complex mechanism of RC joints considered in current seismic design codes. The traditional construction detailing of transverse reinforcement has resulted in serious joint failures during earthquakes. This paper introduces a new design philosophy involving the use of additional diagonal bars within the joint particularly suitable for low to medium seismic effects in earthquake zones. In this study, ten full-scale interior beam-column specimens were constructed with various additional reinforcement details and configurations. The results of the experiment showed that adding additional bars is a promising approach in reinforced concrete structures where earthquakes are eminent. In terms of overall cracking observation during the test, the specimens with additional bars (diagonal and straight) compared with the ones without them showed fewer cracks in the column. Furthermore, concrete confinement is certainly an important design measure as recommended by most international codes.

Key Words
reversed cyclic loading; beam-column joint; plastic hinge; additional diagonal bars; displacement ductility; column shear force; crack propagation

Address
Xilin Lu: State Key Laboratory of Disaster Reduction in Civil Engineering, Tongji University, Shanghai, China Tonny H. Urukap, Sen Li and Fangshu Lin: College of Civil Engineering, Tongji University, Shanghai, China

  • Ductility inverse-mapping method for SDOF systems including passive dampers for varying input level of ground motion
    Hyeong-Gook Kim, Shinta Yoshitomi, Masaaki Tsuji and Izuru Takewaki
    Abstract; Full Text (5192K)

Abstract
A ductility inverse-mapping method for SDOF systems including passive dampers is proposed which enables one to find the maximum acceleration of ground motion for the prescribed maximum response deformation. In the conventional capacity spectrum method, the maximum response deformation is computed through iterative procedures for the prescribed maximum acceleration of ground motion. This is because the equivalent linear model for response evaluation is described in terms of unknown maximum deformation. While successive calculations are needed, no numerically unstable iterative procedure is required in the proposed method. This ductility inverse-mapping method is applied to an SDOF model of bilinear hysteresis. The SDOF models without and with passive dampers (viscous, viscoelastic and hysteretic dampers) are taken into account to investigate the effectiveness of passive dampers for seismic retrofitting of building structures. Since the maximum response deformation is the principal parameter and specified sequentially, the proposed ductility inverse-mapping method is suitable for the implementation of the performance-based design.

Key Words
capacity spectrum method; maximum ground acceleration; response spectrum; passive dampers; ductility inverse-mapping method; demand and capacity spectra; equivalent linear model; performance- based design

Address
Hyeong-Gook Kim, Shinta Yoshitomi, Masaaki Tsuji and Izuru Takewaki: Department of Architecture & Architectural Engineering, Kyoto University, Kyotodaigaku-katsura, Kyoto 615-8540, Japan

  • Seismic vulnerability and preservation of historical masonry monumental structures
    Adem Dogangun and Halil Sezen
    Abstract; Full Text (4829K)

Abstract
Seismic damage and vulnerability of five historical masonry structures surveyed after the 1999 Kocaeli and Duzce, Turkey earthquakes are discussed in this paper. The structures are located in two neighboring cities that have been struck by five very large (Ms

Key Words
seismic damage; historical Turkish mosques; masonry; deterioration; earthquake

Address
Adem Dogangun: Department of Civil Engineering, Uludag University, Bursa, Turkey Halil Sezen: Civil and Environmental Engineering and Geodetic Science, The Ohio State University, Ohio, USA

Table of Contents
       
 
  • 2020  Volume 19      No. 1      No.2    No.3
     
  • 2020  Volume 18      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2019  Volume 17      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2019  Volume 16      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2018  Volume 15      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2018  Volume 14      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2017  Volume 13      No. 1      No.2    No.3    No.4    No.4    No.5    No.6
     
  • 2017  Volume 12      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2016  Volume 11      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2016  Volume 10      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2015  Volume 9      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2015  Volume 8      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2014  Volume 7      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2014  Volume 6      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2013  Volume 5      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2013  Volume 4      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2012  Volume 3      No. 1      No.2    No.3    No.5    No.6
     
  • 2011  Volume 2      No. 1      No.2    No.3    No.4
     
  • 2010  Volume 1      No. 1      No.2    No.3    No.4    No.0
           

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    Earthquakes and Structures
    Volume 18/19 (12 issues)

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