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A Methodology For Determination Of Performance Based Design ParametersYazgan, Ufuk 01 January 2003 (has links) (PDF)
Establishment of relationships for predicting the lateral drift demands of
near-fault ground motions is one of the major challenges in earthquake engineering.
Excessive lateral drifts caused by earthquake ground motions are the major causes of structural damage observed in structures. In this study, some of the fundamental
characteristics of near-fault ground motions are examined. Response characteristics of elastic frame structures to near-fault ground motions are investigated. An approximate method for estimating the elastic ground story and interstory drifts for regular frame type structures is presented. Inelastic displacement demands imposed
on elasto-plastic single degree of freedom (SDOF) systems subjected to near-fault ground are examined. Three equations for estimating the maximum lateral inelastic displacement demand from the maximum elastic displacement demand are established. Two of these equations relate the inelastic and elastic displacement demands through natural period and strength reduction factor. The third equation relates the inelastic and elastic displacement demands through the ratio of natural period to pulse period and the strength reduction factor. Efficiency of the natural period to pulse period ratio for estimating the inelastic displacement ratio is shown.
Error statistics of the proposed equations are presented and compared with similar studies in the literature. According to the results, these equations can be used for quick and rough estimates of displacement demands imposed on regular elastic
moment resisting frames and elasto-plastic single degree of systems.
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Chip Scale Tunable Nanosecond Pulsed Electric Field Generator for ElectroporationKadja, Tchamie 30 May 2019 (has links)
No description available.
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