Your search keyword '"José Miguel Castro"' showing total 4 results

1. Practical macro‐element for vertical and batter pile groups

Author

Miran Cemalovic, José Miguel Castro, and Amir M. Kaynia

Subjects

Earth and Planetary Sciences (miscellaneous), Geotechnical Engineering and Engineering Geology, Civil and Structural Engineering

Published

2022

2. Simplified procedure for the estimation of local inelastic deformation demands for seismic performance assessment of buildings

Author

Miguel A. N. Araújo and José Miguel Castro

Subjects

Estimation, Alternative methods, 021110 strategic, defence & security studies, Engineering, business.industry, Linear elasticity, 0211 other engineering and technologies, 020101 civil engineering, Inelastic deformation, 02 engineering and technology, Eurocode, Structural engineering, Linear analysis, Geotechnical Engineering and Engineering Geology, 0201 civil engineering, Component (UML), Earth and Planetary Sciences (miscellaneous), business, Beam (structure)

Abstract

Summary The implementation of performance-based design and assessment procedures in seismic codes leads to the need for an accurate estimation of local component demands. According to Part 3 of Eurocode 8 safety checks should be always conducted in terms of plastic rotations, even when linear elastic methods of analysis are used. This paper demonstrates that linear analysis fails to predict inelastic deformation demands at the member level. Therefore, a simplified procedure that allows for the estimation of beam inelastic deformation demands using linear elastic methods of analysis in a simple and conservative way is presented herein. A number of moment-resisting steel frames designed according to different criteria and exhibiting different column-to-beam strength ratios were analysed and used for the derivation of the proposed procedure. A comparative study between alternative methods of quantifying inelastic deformation demands using linear analysis is also carried out. The results obtained allow concluding about the efficiency and conservativeness of the proposed procedure which makes it attractive to be employed in engineering practice. Copyright © 2016 John Wiley & Sons, Ltd.

Published

2016

3. Code-based record selection methods for seismic performance assessment of buildings

Author

Miguel A. N. Araújo, Luís Macedo, José Miguel Castro, and Mário C. Marques

Subjects

021110 strategic, defence & security studies, Commercial software, Engineering, business.industry, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Eurocode, Geotechnical Engineering and Engineering Geology, Incremental Dynamic Analysis, Civil engineering, 0201 civil engineering, Reliability engineering, Nonlinear system, Seismic assessment, Earth and Planetary Sciences (miscellaneous), Selection method, Response spectrum, business, Seismic safety

Abstract

Summary The recent concerns regarding the seismic safety of the existing building stock have highlighted the need for an improvement of current seismic assessment procedures. Alongside with the development of more advanced commercial software tools and computational capacities, nonlinear dynamic analysis is progressively becoming a common and preferable procedure in the seismic assessment of buildings. Besides the complexity associated with the formulation of the mathematical model, major issues arise related with the definition of the seismic action, which can lead to different levels of uncertainty in terms of local and global building response. Aiming to address this issue, a comparative study of different code-based record selection methods proposed by Eurocode 8, ASCE41-13 and NZS1170.5:2004 is presented herein. The various methods are employed in the seismic assessment of four steel buildings, designed according to different criteria, and the obtained results are compared and discussed. Special attention is devoted to the influence of the number of real ground motion records selected on the estimation of the mean seismic response and, importantly, to the efficiency that is achieved when an additional selection criteria, based on the control of the spectral mismatch of each individual record with respect to the reference response spectrum, is adopted. The sufficiency of the methods with respect to the pairs of M–R of the selected group of records and the robustness of the scaling procedure are also examined. The paper closes with a study which demonstrates the suitability of a simplified probability-based approach recently proposed for estimating mean seismic demands. Copyright © 2015 John Wiley & Sons, Ltd.

Published

2015

4. Influence of the mean period of ground motion on the inelastic dynamic response of single and multi degree of freedom systems

Author

Ahmed Y. Elghazouli, Peter J. Stafford, José Miguel Castro, and M. Kumar

Subjects

Engineering, Period (periodic table), business.industry, Mode (statistics), Magnitude (mathematics), Structural engineering, Mechanics, Geotechnical Engineering and Engineering Geology, Incremental Dynamic Analysis, Displacement (vector), Seismic analysis, Shear (sheet metal), Earth and Planetary Sciences (miscellaneous), business, Ductility

Abstract

This paper focuses on examining the effects of frequency content of the ground motion on the inelastic demands imposed on both single degree of freedom (SDF) and multi degree of freedom (MDF) steel-framed systems. A detailed literature review is conducted to identify the indicator that best represents the frequency content of ground motion. The mean period (Tm) of ground motion is selected owing to its ability to distinguish between various spectral shapes of ground motion, and its relationship with magnitude, distance and site characteristics. Inelastic displacement demands on SDF systems for target ductility levels are first studied in the light of Tm, using a suite of 128 ground motion records. The study is then extended to MDF systems with the help of incremental dynamic analysis by employing the same ground motion ensemble to assess the influence of Tm on various engineering demand parameters. The results obtained indicate that, for SDF systems, the amplification of displacements occurs when the period ratio between elastic period (Te) and Tm is lower than unity. For MDF systems, the results demonstrate that the influence of higher modes on the base shear and maximum storey drift profile becomes more pronounced, as Tm approaches the higher mode periods of the structure. These observations, for both SDF and MDF systems, tend to be more evident for higher levels of inelasticity. The significance of the results, with particular reference to European seismic design procedures, is highlighted. Copyright © 2010 John Wiley & Sons, Ltd.

Published

2011