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An Optimal Seismic Force Pattern for Uniform Drift Distribution
An Optimal Seismic Force Pattern for Uniform Drift Distribution
by Nastri, Elide , Montuori, Rosario , Tagliafierro, Bonaventura
in code compliant lateral load distributions / Codes / Design / Drift / Ductility / Earthquake damage / Earthquakes / Fatigue failure / Force distribution / genetic algorithm / Genetic algorithms / Lateral loads / load distribution / Low cycle fatigue / optimisation of the structural response / Seismic engineering / seismic load pattern / Stress concentration / System effectiveness / uniform drift distribution / vibration modes
2019
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An Optimal Seismic Force Pattern for Uniform Drift Distribution
by Nastri, Elide , Montuori, Rosario , Tagliafierro, Bonaventura
in code compliant lateral load distributions / Codes / Design / Drift / Ductility / Earthquake damage / Earthquakes / Fatigue failure / Force distribution / genetic algorithm / Genetic algorithms / Lateral loads / load distribution / Low cycle fatigue / optimisation of the structural response / Seismic engineering / seismic load pattern / Stress concentration / System effectiveness / uniform drift distribution / vibration modes
2019
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An Optimal Seismic Force Pattern for Uniform Drift Distribution
An Optimal Seismic Force Pattern for Uniform Drift Distribution
by Nastri, Elide , Montuori, Rosario , Tagliafierro, Bonaventura
in code compliant lateral load distributions / Codes / Design / Drift / Ductility / Earthquake damage / Earthquakes / Fatigue failure / Force distribution / genetic algorithm / Genetic algorithms / Lateral loads / load distribution / Low cycle fatigue / optimisation of the structural response / Seismic engineering / seismic load pattern / Stress concentration / System effectiveness / uniform drift distribution / vibration modes
2019

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An Optimal Seismic Force Pattern for Uniform Drift Distribution
An Optimal Seismic Force Pattern for Uniform Drift Distribution
Journal Article

An Optimal Seismic Force Pattern for Uniform Drift Distribution

Nastri, Elide,
Montuori, Rosario,
Tagliafierro, Bonaventura
2019
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Overview
The force distribution proposed by codes, which in many cases is framed in the equivalent static force procedure, likely leads to design structures with non-uniform drift distribution in terms of inter-storey drift and ductility demands. This can lead to an unbalanced drift demand at certain storeys. This phenomenon may also amass cyclic damage to the dissipative elements at this very storey, therefore increasing the probability of premature failure for low-cycle fatigue. This work proposes a new force design distribution that accounts for higher mode effects and limits the displacement concentration at any storey thus improving the dissipative capacity of the whole structures. The main advantage of the proposed method stands in its formulation, which allows to spare any previous set up with structural analyses. The proposed force distribution has been applied to multi-degree-of-freedom systems to check its effectiveness, and the results have been compared with other proposals. In addition, in order to obtain a further validation of the proposed force distribution, the results obtained by using a genetic algorithm have been evaluated and compared. Additionally, the results provided in this work validate the proposed procedure to develop a more efficient lateral load pattern.
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Publisher
MDPI AG
Subject

code compliant lateral load distributions

/ Codes

/ Design

/ Drift

/ Ductility

/ Earthquake damage

/ Earthquakes

/ Fatigue failure

/ Force distribution

/ genetic algorithm

/ Genetic algorithms

/ Lateral loads

/ load distribution

/ Low cycle fatigue

/ optimisation of the structural response

/ Seismic engineering

/ seismic load pattern

/ Stress concentration

/ System effectiveness

/ uniform drift distribution

/ vibration modes

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