Push-over analysis for performance-based seismic design

The paper presents a simple computer-based push-over analysis technique for performance-based design of building frameworks subject to earthquake loading. The technique is based on the conventional displacement method of elastic analysis. Through the use of a ‘plasticity-factor’ that measures the de...

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Bibliographic Details
Published inComputers & structures Vol. 80; no. 31; pp. 2483 - 2493
Main Authors Hasan, R, Xu, L, Grierson, D.E
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2002
Subjects
Push-over analysis
Seismic loading
Steel frames
Steel frames
Seismic loading
Push-over analysis
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Summary:The paper presents a simple computer-based push-over analysis technique for performance-based design of building frameworks subject to earthquake loading. The technique is based on the conventional displacement method of elastic analysis. Through the use of a ‘plasticity-factor’ that measures the degree of plastification, the standard elastic and geometric stiffness matrices for frame elements (beams, columns, etc.) are progressively modified to account for nonlinear elastic–plastic behavior under constant gravity loads and incrementally increasing lateral loads. The behavior model accounts for material inelasticity due to both single and combined stress states, and provides the ability to monitor the progressive plastification of frame elements and structural systems under increasing intensity of earthquake ground motion. The proposed analysis technique is illustrated for two building framework examples.
ISSN:0045-7949
1879-2243
DOI:10.1016/S0045-7949(02)00212-2