Experimental and Numerical Investigation on Seismic Performance of One-Way Straight Mortise–Tenon Joints Based on a Novel Method to Simulate Damage of Deteriorated Ancient Chinese Timber Buildings

Experimental and Numerical Investigation on Seismic Performance of One-Way Straight Mortise–Tenon Joints Based on a Novel Method to Simulate Damage of Deteriorated Ancient Chinese Timber Buildings

AbstractBeing exposed to weather directly or indirectly for more than 100 years, ancient timber buildings have experienced different levels of mechanical degradation. Especially the mortise-tenon joints, which play a crucial role in resisting various loads for these buildings, have suffered from sev...

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Veröffentlicht in:Journal of performance of constructed facilities 2020-04, Vol.34 (2)
Hauptverfasser: Chen, Ling-Kun, Li, Sheng-Cai, Zhao, Kun-Peng, Chen, Zhi-Yong, Song, Tuo, Zhang, Lei, Jang, Zhi-Jun
Format: Artikel
Sprache:eng
Schlagworte:
Compression zone
Computer simulation
Cyclic loads
Degradation
Earthquake damage
Historical buildings
Historical structures
Impact damage
Joints (anatomy)
Seismic response
Stiffness
Structural safety
Technical Papers
Timber (structural)
Viscous damping
Weather
Wooden structures
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container_issue 2
container_start_page
container_title Journal of performance of constructed facilities
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creator Chen, Ling-Kun
Li, Sheng-Cai
Zhao, Kun-Peng
Chen, Zhi-Yong
Song, Tuo
Zhang, Lei
Jang, Zhi-Jun
description AbstractBeing exposed to weather directly or indirectly for more than 100 years, ancient timber buildings have experienced different levels of mechanical degradation. Especially the mortise-tenon joints, which play a crucial role in resisting various loads for these buildings, have suffered from severe deformations and damages, resulting in a significant reduction in the structural safety for the ancient timber buildings. In this study, a method is proposed to quantitatively describe the destruction of one-way straight mortise–tenon (OWSMT) joints, and the impact of joint damage on the seismic performance of the ancient timber structure was studied. The deterioration of the mortise-tenon joints was simulated by changing the size of the mortise, and controlling the width of the mortise compression zone and the gap between the tenon and the mortise. Low-cyclic loading tests were carried out on 23 groups of OWSMT joint specimens. The structural performance in terms of M-θ skeleton curves, stiffness degradation, and equivalent viscous damping of the OWSMT joints were obtained. Through the comparative analysis of the experimental and numerical simulation results, this paper further analyzes the seismic performance of the damaged timber joints.
doi_str_mv 10.1061/(ASCE)CF.1943-5509.0001390
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Especially the mortise-tenon joints, which play a crucial role in resisting various loads for these buildings, have suffered from severe deformations and damages, resulting in a significant reduction in the structural safety for the ancient timber buildings. In this study, a method is proposed to quantitatively describe the destruction of one-way straight mortise–tenon (OWSMT) joints, and the impact of joint damage on the seismic performance of the ancient timber structure was studied. The deterioration of the mortise-tenon joints was simulated by changing the size of the mortise, and controlling the width of the mortise compression zone and the gap between the tenon and the mortise. Low-cyclic loading tests were carried out on 23 groups of OWSMT joint specimens. The structural performance in terms of M-θ skeleton curves, stiffness degradation, and equivalent viscous damping of the OWSMT joints were obtained. 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source American Society of Civil Engineers:NESLI2:Journals:2014
subjects Compression zone
Computer simulation
Cyclic loads
Degradation
Earthquake damage
Historical buildings
Historical structures
Impact damage
Joints (anatomy)
Seismic response
Stiffness
Structural safety
Technical Papers
Timber (structural)
Viscous damping
Weather
Wooden structures
title Experimental and Numerical Investigation on Seismic Performance of One-Way Straight Mortise–Tenon Joints Based on a Novel Method to Simulate Damage of Deteriorated Ancient Chinese Timber Buildings
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