Seismic analysis and design using the endurance time method
著者
書誌事項
Seismic analysis and design using the endurance time method
(Taylor and Francis series in resilience and sustainability in civil, mechanical, aerospace and manufacturing engineering systems / series editor, Mohammad Noori)
CRC Press, 2022
2nd ed
- : hbk
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
The endurance time method (ETM) is a seismic analysis procedure in which intensifying dynamic excitations are used as the loading function, and it provides many unique benefits in the design of structures. It can largely reduce the computational effort needed for the response history analysis of structures. This aids in the practical application of response history-based analysis in problems involving very large models and/or requiring numerous analyses to achieve optimal design goals. A single response history analysis through ETM provides an estimate of the system response at the entire range of seismic intensities of interest, thus making it ideal for applications such as seismic risk assessment, life-cycle cost analysis, and value-based seismic design. Conceptual simplicity also makes ETM a useful tool for preliminary response history analysis of structural systems.
Features:
Presents full coverage of the subject from basic concepts to advanced applied topics.
Provides a coherent text on endurance time excitation functions that are essential in endurance time analysis.
Seismic Analysis and Design using the Endurance Time Method serves as a comprehensive resource for students, researchers, and practicing structural engineers who want to familiarize themselves with the concepts and applications of the endurance time method (ETM) as a useful tool for dynamic structural analysis.
目次
Introduction to the Endurance Time Method. Properties of the Endurance Time Excitation Functions. Duration Properties of the Endurance Time Excitation Functions. Generating ET Excitation Functions by Numerical Optimization. Correlating Analysis Time with Intensity Indicators. ET Analysis of Framed Structures. Multicomponent Endurance Time Analysis. Performance-Based Design with the Endurance Time Method. Value Based Seismic Design with ET. Seismic Resilient Design by ET. Sample Engineering Application: EDR Seismic Performance
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