Shake table testing of confined adobe masonry structures

Khan Faisal Zaman; Ejaz Muhammad; Ahmad Naveed

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Shake table testing of confined adobe masonry structures

机译：震动狭窄的Adobe Masonry结构的测试测试

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Buildings made using the locally available clay materials are amongst the least expensive forms of construction in many developing countries, and therefore, widely popular in remote areas. It is despite the fact that these low-strength masonry structures are vulnerable to seismic forces. Since transporting imported materials like cement and steel in areas inaccessible by motorable roads is challenging and financially unviable. This paper presents, and experimentally investigates, adobe masonry structures that utilize the abundantly available local clay materials with moderate use of imported materials like cement, aggregates, and steel. Shake-table tests were performed on two 1:3 reduce-scaled adobe masonry models for experimental seismic testing and verification. The model AM1 was confined with vertical lightly reinforced concrete columns provided at all corners and reinforced concrete horizontal bands (i.e., tie beams) provided at sill, lintel, and eave levels. The model AM2 was confined only with the horizontal bands provided at sill, lintel, and eave levels. The models were subjected to sinusoidal base motions for studying the damage evolution and response of the model under dynamic lateral loading. The lateral force-deformation capacity curves for both models were developed and bi-linearized to compute the seismic response parameters: stiffness, strength, ductility, and response modification factor R. Seismic performance levels, story-drift, base shear coefficient, and the expected structural damages, were defined for both the models. Seismic performance assessment of the selected models was carried out using the lateral seismic force procedure to evaluate their safety in different seismic zones. The use of vertical columns in AM1 has shown a considerable increase in the lateral strength of the model in comparison to AM2. Although an R factor equal to 2.0 is recommended for both the models, AM1 has exhibited better seismic performance in all seismic zones due to its relatively high lateral strength in comparison to AM2.

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来源
《Earthquake and structures: An International journal of earthquake engineering & earthquake effects on structures》 |2021年第2期|共12页
作者
Khan Faisal Zaman; Ejaz Muhammad; Ahmad Naveed;
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作者单位

UET Peshawar Dept Civil Engn Peshawar 25120 Khyber Pakhtunk Pakistan;

UET Peshawar Dept Civil Engn Peshawar 25120 Khyber Pakhtunk Pakistan;

UET Peshawar Dept Civil Engn Peshawar 25120 Khyber Pakhtunk Pakistan;

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原文格式 PDF
正文语种 eng
中图分类地震学;
关键词
adobe; response modification factor; story-drift; base shear coefficient; confined masonry;

机译：Adobe;响应修改因子;故事漂移;基础剪切系数;局限于砌体;

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Shake table testing of confined adobe masonry structures

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