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Seismic Performance Evaluation of Damaged Ancient Timber Structures with Looseness Mortise-Tenon Joints

Linlin Ma, Jianyang Xue, Xicheng Zhang

2022International Journal of Architectural Heritage20 citationsDOI

Abstract

In order to investigate the seismic performance of damaged ancient timber structures with looseness mortise-tenon joints, the shaking table test of an intact ancient timber structure was carried out. The experimental model’s failure modes, main modal parameters, and dynamic response curves were investigated. In addition, the finite element models (FEMs) with looseness mortise-tennon joints were built by OpenSees, and the natural periods, acceleration, and displacement time history curves of intact FEM and experimental model are compared. Moreover, incremental dynamic analysis (IDA) of damaged models was performed, where the ground peak acceleration (PGA) and maximum inter-story drift ratio θmax are taken as intensity measure (IM) and damage measure (DM) of the motions of the ground, respectively. The seismic fragility of damaged models was studied by probabilistic seismic demand analysis to evaluate the seismic performance of the damaged structures from the perspective of probabilistic.

Topics & Concepts

Structural engineeringFragilityMortise and tenonOpenSeesFinite element methodEngineeringDisplacement (psychology)AccelerationEarthquake shaking tableIncremental Dynamic AnalysisSeismic analysisGeotechnical engineeringGeologyPsychotherapistPhysical chemistryPhysicsChemistryClassical mechanicsPsychologyWood Treatment and PropertiesTree Root and Stability StudiesBamboo properties and applications
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