Assessment of precast beam-column exterior joint subject to Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) using fragility curve

The performance based seismic design requires a probabilistic approach to enable the designers/engineers to predict the damage state of a structure following an earthquake. Fragility curve was developed in this paper for precast beam-column exterior joint to fulfil the needs of the probabilistic app...

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Main Authors: Kay Dora, A. G., Tukiar, M. A., Hamid, N. H., Yee, H. M., Nurjuhanah, J.
Format: Conference Proceeding
Language:English
Subjects:
Beam-columns
Color coding
Damage detection
Design
Design engineering
Ductility
Earthquake damage
Earthquake prediction
Earthquakes
Fragility
Retrofitting
Seismic design
Seismic engineering
Seismic hazard
Seismic response
Structural damage
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creator Kay Dora, A. G.
Tukiar, M. A.
Hamid, N. H.
Yee, H. M.
Nurjuhanah, J.
description The performance based seismic design requires a probabilistic approach to enable the designers/engineers to predict the damage state of a structure following an earthquake. Fragility curve was developed in this paper for precast beam-column exterior joint to fulfil the needs of the probabilistic approach. The displacement ductility obtained from the experimental work was used to identify the damage state levels for the development of fragility curve for the beam-column exterior joint specimen. The damage state levels are described in accordance with the definitions given by FEMA 273 and HAZUS®99. Nonetheless, the prediction of damage states and the color-coding system of the precast beam-column exterior joint were made for two different levels of earthquake excitation based on the Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) which were obtained from the Malaysian Seismic Hazard Maps. The color-coding system was utilized to identify the performance level, damage level, drift damage and ductility factors. The findings from fragility curve exhibits that the exterior beam-column joint would suffers slight damage and still have chanced to be repaired and strengthened using an appropriate retrofitting method, when subjected to DBE (PGA=0.12g) and MCE (PGA=0.22g).
doi_str_mv 10.1063/1.4965066
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G. ; Tukiar, M. A. ; Hamid, N. H. ; Yee, H. M. ; Nurjuhanah, J.</creator><contributor>Abdullah, Mohd Haris Ridzuan Ooi ; Min, Yee Hooi ; Nasir, Sh Mohd Firdaus Sh Abdul ; Bashar, Nur Azwa Muhamad</contributor><creatorcontrib>Kay Dora, A. G. ; Tukiar, M. A. ; Hamid, N. H. ; Yee, H. M. ; Nurjuhanah, J. ; Abdullah, Mohd Haris Ridzuan Ooi ; Min, Yee Hooi ; Nasir, Sh Mohd Firdaus Sh Abdul ; Bashar, Nur Azwa Muhamad</creatorcontrib><description>The performance based seismic design requires a probabilistic approach to enable the designers/engineers to predict the damage state of a structure following an earthquake. Fragility curve was developed in this paper for precast beam-column exterior joint to fulfil the needs of the probabilistic approach. The displacement ductility obtained from the experimental work was used to identify the damage state levels for the development of fragility curve for the beam-column exterior joint specimen. The damage state levels are described in accordance with the definitions given by FEMA 273 and HAZUS®99. Nonetheless, the prediction of damage states and the color-coding system of the precast beam-column exterior joint were made for two different levels of earthquake excitation based on the Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) which were obtained from the Malaysian Seismic Hazard Maps. The color-coding system was utilized to identify the performance level, damage level, drift damage and ductility factors. 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M.</creatorcontrib><creatorcontrib>Nurjuhanah, J.</creatorcontrib><title>Assessment of precast beam-column exterior joint subject to Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) using fragility curve</title><title>AIP conference proceedings</title><description>The performance based seismic design requires a probabilistic approach to enable the designers/engineers to predict the damage state of a structure following an earthquake. Fragility curve was developed in this paper for precast beam-column exterior joint to fulfil the needs of the probabilistic approach. The displacement ductility obtained from the experimental work was used to identify the damage state levels for the development of fragility curve for the beam-column exterior joint specimen. The damage state levels are described in accordance with the definitions given by FEMA 273 and HAZUS®99. Nonetheless, the prediction of damage states and the color-coding system of the precast beam-column exterior joint were made for two different levels of earthquake excitation based on the Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) which were obtained from the Malaysian Seismic Hazard Maps. The color-coding system was utilized to identify the performance level, damage level, drift damage and ductility factors. 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M.</au><au>Nurjuhanah, J.</au><au>Abdullah, Mohd Haris Ridzuan Ooi</au><au>Min, Yee Hooi</au><au>Nasir, Sh Mohd Firdaus Sh Abdul</au><au>Bashar, Nur Azwa Muhamad</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Assessment of precast beam-column exterior joint subject to Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) using fragility curve</atitle><btitle>AIP conference proceedings</btitle><date>2016-10-19</date><risdate>2016</risdate><volume>1774</volume><issue>1</issue><issn>0094-243X</issn><eissn>1551-7616</eissn><coden>APCPCS</coden><abstract>The performance based seismic design requires a probabilistic approach to enable the designers/engineers to predict the damage state of a structure following an earthquake. Fragility curve was developed in this paper for precast beam-column exterior joint to fulfil the needs of the probabilistic approach. The displacement ductility obtained from the experimental work was used to identify the damage state levels for the development of fragility curve for the beam-column exterior joint specimen. The damage state levels are described in accordance with the definitions given by FEMA 273 and HAZUS®99. Nonetheless, the prediction of damage states and the color-coding system of the precast beam-column exterior joint were made for two different levels of earthquake excitation based on the Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) which were obtained from the Malaysian Seismic Hazard Maps. The color-coding system was utilized to identify the performance level, damage level, drift damage and ductility factors. 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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Beam-columns
Color coding
Damage detection
Design
Design engineering
Ductility
Earthquake damage
Earthquake prediction
Earthquakes
Fragility
Retrofitting
Seismic design
Seismic engineering
Seismic hazard
Seismic response
Structural damage
title Assessment of precast beam-column exterior joint subject to Design Basis Earthquake (DBE) and Maximum Considered Earthquake (MCE) using fragility curve
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