KINERJA SEISMIK SERTA PROBABILITAS KERUSAKAN BANGUNAN DENGAN METODE PUSHOVER ANALYSIS DAN HAZUS (Studi Kasus : Gedung Sekertariat DPRD Klaten) SEISMIC PERFORMANCE AND PROBABILITY OF BUILDING DAMAGE USING PUSHOVER ANALYSIS AND HAZUS METHODS (Case Study: Klaten DPRD Secretariat Building)

Al Ayubi, Solahudin and Nurhidayatullah, Eka Faisal (2019) KINERJA SEISMIK SERTA PROBABILITAS KERUSAKAN BANGUNAN DENGAN METODE PUSHOVER ANALYSIS DAN HAZUS (Studi Kasus : Gedung Sekertariat DPRD Klaten) SEISMIC PERFORMANCE AND PROBABILITY OF BUILDING DAMAGE USING PUSHOVER ANALYSIS AND HAZUS METHODS (Case Study: Klaten DPRD Secretariat Building). Tugas Akhir thesis, University Technology Yogyakarta.

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Abstract

ABSTRAK Gedung Sekretariat DPRD Klaten memiliki ketinggian mencapai 4 lantai dan dimungkinkan rentan terhadap kerusakan disebabkan adanya gempa yang mengakibatkan jatuhnya korban jiwa. Gempa bumi yang telah banyak menelan korban menyebabkan tahapan mitigasi penting untuk dilakukan. Untuk mengetahui seberapa besar keruntuhan maka dilakukan pemeriksaan kinerja bangunan bangunan. Pemeriksaan kinerja seismik pada struktur menggunakan konsep Performace based design yang merupakan metode untuk menganalisis pola keruntuhan struktur bangunan dengan pendekatan pushover analysis (nonlinear static pushover analysis). Salah satu cara melakukan mitigasi yaitu dengan memprediksi probabilitas kerusakan serta estimasi kerugian yang ditimbulkan akibat gempa pada bangunan. Probabilitas dengan metode HAZUS digunakan untuk asesmen resiko akibat berbagai bencana dengan fragility curve. Metode ini sudah banyak digunakan untuk menaksir kerugian akibat gempa bumi di Amerika Serikat. Penelitian tugas akhir ini dilakukan dengan beberapa langkah, mulai perhitungan pembebanan struktur dead load dan live load berdasarkan SNI 1727-2013 dan beban gempa berdasarkan SNI 1726-2012, permodelan struktur dan pushover analysis menggunakan program ETABS, kemudian dari Pushover analysis diperoleh capacity curve dan performance pont yang digunakan untuk mengetahui level kinerja bangunanan berdasarkan FEMA 440. Langkah terakhir yaitu menghitung probabilitas kerusakan bangunan menggunakan metode HAZUS untuk mendapatkan prosentase kerusakan bangunan. Berdasarkan nilai kurva kapasitas (Capacity Curve) pada pushover arah x diperoleh besar gaya geser leleh (Vy) sebesar 4019,93 kN, dengan displacement 0,0473 m dan gaya geser maksimum (Vt) sebesar 6324,35 dengan displacement 0,1117. Untuk pushover arah y diperoleh besar gaya geser leleh (Vy) sebesar 3936,07 kN, dengan displacement 0,0616 m dan gaya geser maksimum (Vt) sebesar 6508,17 kN dengan displacement 0,1486. Performance point diperoleh nilai maksimum total drift sebesar 0,00489. Berdasarkan FEMA 440 nilai tersebut masuk kategori Immediate Occupancy (IO), yang berarti bila terjadi gempa gedung tidak mengalami kerusakan struktural dan non struktural dan tetap aman digunakan. Probabilitas kerusakan yang diperoleh akibat gempa bumi untuk slight, moderate, extensive, dan complete adalah 33,53%, 12,83%, 0,304%, dan 0,024%. Total kerentanan bangunan terhadap gempa yaitu 46,69% dan kemungkinan tidak ada kerusakan adalah 53,3%. Hal ini menunjukkan kemungkinan struktur bangunan tidak mengalami kerusakan yang parah apabila terjadi gempa. Kata kunci: pushover, performance based, Probabilitas kerusakan bangunan. ABSTRACT Klaten DPRD Secretariat Building has a height of up to 4 floors and it is possible to be susceptible to damage due to an earthquake that resulted in a loss of life. An earthquake that has claimed many lives has caused important mitigation steps to be taken. To find out how big the collapse is, the performance of the building is carried out. Examination of seismic performance on the structure using the concept of Performace based design which is a method for analyzing the pattern of collapse of building structures with a pushover analysis (nonlinear static pushover analysis) approach. One way to mitigate is by predicting the probability of damage and estimating the losses caused by the earthquake in the building. The probability with the HAZUS method is used for risk assessment due to various disasters with fragility curve. This method has been widely used to estimate losses due to earthquakes in the United States. This final project research is carried out with several steps, starting from calculating the loading of dead load and live load structures based on SNI 1727-2013 and earthquake loads based on SNI 1726-2012, structural modeling and pushover analysis using ETABS programs, then Pushover analysis obtained capacity curves and performance pont used to determine the performance level of the building based on FEMA 440. The final step is to calculate the probability of building damage using the HAZUS method to get the percentage of building damage. Based on the value of the Capacity Curve on the pushover direction x, the yield of melting shear force (Vy) is 4019.93 kN, with displacement of 0.0473 m and maximum shear force (Vt) of 6324.35 with displacement of 0.1117. For y direction pushover obtained the yield of melting shear force (Vy) of 3936.07 kN, with displacement of 0.0616 m and maximum shear force (Vt) of 6508.17 kN with displacement of 0.1486. Performance points are obtained by the maximum total drift value of 0.00489. Based on FEMA 440, the value is in the category of Immediate Occupancy (IO), which means that if an earthquake occurs it does not experience structural and non-structural damage and is still safe to use. The probability of damage caused by earthquakes to slight, moderate, extensive, and complete is 33.53%, 12.83%, 0.304%, and 0.024%. The total vulnerability of buildings to earthquakes is 46.69% and the probability of no damage is 53.3%. This shows the possibility of building structures not experiencing severe damage in the event of an earthquake. Keywords: pushover, performance based, probability of building damage. DAFTAR PUSTAKA ATC-40, (1996). Seismic Evaluation and Retrofit of Concrete Buildings, Volume I. Aplied Technology Council. Redwood City. California. USA. Badan Standarisasi Nasional, (2002). Tata Cara Perencanaan Ketahanan Gempa untuk Struktur Bangunan Gedung dan Non Gedung. SNI 1726-2002. Bandung: Yayasan LPMB. Badan Standarisasi Nasional, (2012). Tata Cara Perencanaan Ketahanan Gempa untuk Struktur Bangunan Gedung dan Non Gedung. SNI 1726-2012. Bandung: Yayasan LPMB. Badan Standarisasi Nasional, (2013). Beban Minimum Untuk Perencanaan Bangunan Gedung dan Struktur Lain (SNI 1727-2013). Jakarta: Yayasan LPMB. Badan Standarisasi Nasional, (2013). Persyaratan Beton Struktural untuk Bangunan Gedung. SNI 03-2847-2013. Bandung: Yayasan LPMB. Federal Emergency Management Agency, (1999). Earthquake Loss Estimation Methodology HAZUS 99: technical Manual. Washington DC : FEMA Publication Bawono, Adi Setiabudi (2016). Studi Kerentanan Akibat Gempa : Studi Kasus Perumahan di Bantul. Jurnal Ilmiah Akibat Semesta Teknika. Bawono, Ali dan Ramli (2018). A preliminary study of seismic risk assessment shortly after the Banjarnegara Indonesia earthquake on 2018. Jurnal Ilmiah Akibat Semesta Teknika. CSI America, (2015). ETABS. 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Item Type: Thesis (Skripsi, Tugas Akhir or Kerja Praktek) (Tugas Akhir)
Subjects: T Technology > TA Engineering (General). Civil engineering (General)
Divisions: Fakultas Sains dan Teknologi > S1 Teknik Sipil
Depositing User: Kaprodi S1 Teknik Sipil UTY
Date Deposited: 30 Jul 2019 07:36
Last Modified: 30 Jul 2019 07:36
URI: http://eprints.uty.ac.id/id/eprint/3135

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