Shake table tests on 1:2 reduced scale masonry house with the application of horizontal seismic bands

The safety of people's lives is crucial in structures that provide shelter. Earthquakes are a major natural disaster that have claimed thousands of lives over the years, but other factors can also cause damage to these structures. Building collapses are often due to their inability to endure th...

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Veröffentlicht in:	Engineering structures 2023-05, Vol.283, p.115897, Article 115897
Hauptverfasser:	Yadav, Santosh, Sieffert, Yannick, Vieux-Champagne, Florent, Malecot, Yann, Hajmirbaba, Majid, Arléo, Luis, Crété, Eugénie, Garnier, Philippe
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Sprache:	eng
Schlagworte:	A reduced scale model Digital image correlation Dynamic test Earth masonry Engineering Sciences Mechanics Reinforcement Shake table Structural mechanics Traditional construction
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creator	Yadav, Santosh Sieffert, Yannick Vieux-Champagne, Florent Malecot, Yann Hajmirbaba, Majid Arléo, Luis Crété, Eugénie Garnier, Philippe
description	The safety of people's lives is crucial in structures that provide shelter. Earthquakes are a major natural disaster that have claimed thousands of lives over the years, but other factors can also cause damage to these structures. Building collapses are often due to their inability to endure the seismic loading, not the earthquake itself. Most residential buildings are masonry structures. There are many strategies for enhancing structural behavior, but very little research has been done on masonry structures, which house about 1/3rd of the world's population. This study focuses on characterization of seismic response using shake table tests to assess the dynamic behavior of masonry structures when horizontal seismic bands are applied. Horizontal seismic band is one of the traditional techniques used in masonry structure. Three reduced scale models were constructed with one using a reinforced concrete band, one with a timber band, and one without a band. All models were constructed using extruded earth block and mud mortar, common building materials in developing nations. The models were tested on a shake table using the same loading signal to compare their response behavior. A high-speed camera was also used to capture images; accelerometers and displacement sensors were installed to record the response. Digital Image Correlation (DIC), which provides non-contact optical measurement, has been essential in obtaining full-field measurement. The results showed significant improvement in the seismic response of structures with horizontal seismic bands. The behaviors are compared in terms of natural frequency, damping, energy dissipation, and crack propagation patterns using two types of materials as seismic bands. •Shake table tests•Traditional construction technique•Application of Digital Image Correlation technique•Dynamic tests on reduced scale masonry house•Horizontal seismic band
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Earthquakes are a major natural disaster that have claimed thousands of lives over the years, but other factors can also cause damage to these structures. Building collapses are often due to their inability to endure the seismic loading, not the earthquake itself. Most residential buildings are masonry structures. There are many strategies for enhancing structural behavior, but very little research has been done on masonry structures, which house about 1/3rd of the world's population. This study focuses on characterization of seismic response using shake table tests to assess the dynamic behavior of masonry structures when horizontal seismic bands are applied. Horizontal seismic band is one of the traditional techniques used in masonry structure. Three reduced scale models were constructed with one using a reinforced concrete band, one with a timber band, and one without a band. 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subjects	A reduced scale model Digital image correlation Dynamic test Earth masonry Engineering Sciences Mechanics Reinforcement Shake table Structural mechanics Traditional construction
title	Shake table tests on 1:2 reduced scale masonry house with the application of horizontal seismic bands
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