Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based Approach
This research evaluated the seismic vulnerability of non-engineered reinforced concrete (RC) buildings compared with that of engineered RC structures in the Darchula region of Far-Western Nepal, an area prone to high seismic risk. This study emphasizes the seismic performance of buildings under var...
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| Format: | Article |
| Language: | English |
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Universitas Gadjah Mada
2025-08-01
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| Series: | Journal of the Civil Engineering Forum |
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| Online Access: | https://jurnal.ugm.ac.id/v3/JCEF/article/view/21159 |
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| author | Birendra Kumar Bohara Benbokhari Abdellatif Jyoti Deupa Nirmal Mani Joshi Sangam Jagari |
| author_facet | Birendra Kumar Bohara Benbokhari Abdellatif Jyoti Deupa Nirmal Mani Joshi Sangam Jagari |
| author_sort | Birendra Kumar Bohara |
| collection | DOAJ |
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This research evaluated the seismic vulnerability of non-engineered reinforced concrete (RC) buildings compared with that of engineered RC structures in the Darchula region of Far-Western Nepal, an area prone to high seismic risk. This study emphasizes the seismic performance of buildings under various loading conditions by examining construction practices and identifying structural deficiencies in RC buildings in Darchula, Nepal. Linear elastic and nonlinear pushover analyses are used to assess periods, mass participation, base shear, inter-story drift, capacity curves, nonlinear drift demand, and fragility curves. Models designed according to national and international standards are compared with non-engineered buildings (S1 – S6) to highlight the discrepancies in seismic resilience. The study further provides a probabilistic fragility framework to quantify damage likelihood at varying seismic demand levels. The results show that engineered buildings exhibit significantly greater resistance to seismic forces, with greater flexibility and higher base shear capacities. In contrast, non-engineered buildings, particularly shorter structures, are more prone to damage under moderate seismic events. Research indicates that ground floors in non-engineered buildings consistently exhibit the most significant inter-story drift as a result of softstory impacts, highlighting them as crucial failure points. Fragility curves derived from spectral displacement values reveal that non-engineered buildings reach critical damage states at lower levels of seismic demand, indicating greater vulnerability. This research underscores the importance of enforcing seismic design standards and retrofitting non-engineered buildings to improve their earthquake resilience in seismic hotspots such as Darchula, Nepal. These findings provide a foundation for future seismic risk reduction strategies and highlight the urgent need for improved building practices to mitigate earthquake-related damage.
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| format | Article |
| id | doaj-art-b62be4fee97d46aba8aef28892132fb5 |
| institution | Kabale University |
| issn | 2581-1037 2549-5925 |
| language | English |
| publishDate | 2025-08-01 |
| publisher | Universitas Gadjah Mada |
| record_format | Article |
| series | Journal of the Civil Engineering Forum |
| spelling | doaj-art-b62be4fee97d46aba8aef28892132fb52025-08-20T03:58:08ZengUniversitas Gadjah MadaJournal of the Civil Engineering Forum2581-10372549-59252025-08-0111310.22146/jcef.21159Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based ApproachBirendra Kumar Bohara0Benbokhari Abdellatif1Jyoti Deupa2Nirmal Mani Joshi3Sangam Jagari4School of Engineering, Far Western University, Kanchanpur-10400, NEPALLaboratoire LTPiTE, Ecole Nationale Supérieure des Travaux Publics, ALGERIASchool of Engineering, Far Western University, Kanchanpur-10400, NEPALSchool of Engineering, Far Western University, Mahendranagar, Kanchanpur-10400, NEPALSchool of Engineering, Far Western University, Mahendranagar, Kanchanpur-10400, NEPAL This research evaluated the seismic vulnerability of non-engineered reinforced concrete (RC) buildings compared with that of engineered RC structures in the Darchula region of Far-Western Nepal, an area prone to high seismic risk. This study emphasizes the seismic performance of buildings under various loading conditions by examining construction practices and identifying structural deficiencies in RC buildings in Darchula, Nepal. Linear elastic and nonlinear pushover analyses are used to assess periods, mass participation, base shear, inter-story drift, capacity curves, nonlinear drift demand, and fragility curves. Models designed according to national and international standards are compared with non-engineered buildings (S1 – S6) to highlight the discrepancies in seismic resilience. The study further provides a probabilistic fragility framework to quantify damage likelihood at varying seismic demand levels. The results show that engineered buildings exhibit significantly greater resistance to seismic forces, with greater flexibility and higher base shear capacities. In contrast, non-engineered buildings, particularly shorter structures, are more prone to damage under moderate seismic events. Research indicates that ground floors in non-engineered buildings consistently exhibit the most significant inter-story drift as a result of softstory impacts, highlighting them as crucial failure points. Fragility curves derived from spectral displacement values reveal that non-engineered buildings reach critical damage states at lower levels of seismic demand, indicating greater vulnerability. This research underscores the importance of enforcing seismic design standards and retrofitting non-engineered buildings to improve their earthquake resilience in seismic hotspots such as Darchula, Nepal. These findings provide a foundation for future seismic risk reduction strategies and highlight the urgent need for improved building practices to mitigate earthquake-related damage. https://jurnal.ugm.ac.id/v3/JCEF/article/view/21159Engineered buildingsNon-engineered BuildingsSeismic vulnerabilityPushover analysisFragility curveDarchula |
| spellingShingle | Birendra Kumar Bohara Benbokhari Abdellatif Jyoti Deupa Nirmal Mani Joshi Sangam Jagari Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based Approach Journal of the Civil Engineering Forum Engineered buildings Non-engineered Buildings Seismic vulnerability Pushover analysis Fragility curve Darchula |
| title | Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based Approach |
| title_full | Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based Approach |
| title_fullStr | Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based Approach |
| title_full_unstemmed | Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based Approach |
| title_short | Seismic Performance of Reinforced Concrete Buildings in Darchula, Nepal: A Fragility-Based Approach |
| title_sort | seismic performance of reinforced concrete buildings in darchula nepal a fragility based approach |
| topic | Engineered buildings Non-engineered Buildings Seismic vulnerability Pushover analysis Fragility curve Darchula |
| url | https://jurnal.ugm.ac.id/v3/JCEF/article/view/21159 |
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