Evaluasi Kinerja Struktur Gedung Bertingkat Menggunakan Pendekatan Desain Berbasis Kinerja

In Indonesia, earthquake-resistant structures are governed by SNI as design codes, which are updated on a regular basis. As a result, existing buildings with outdated requirements must be reviewed so that the building's performance may be assessed in light of the most recent codes. Pushover analysis and direct displacement-based design are used to characterize the real condition of the building in order to assess its performance. The 7-story reinforced concrete building structure in this study was designed according to SNI 03-2847-2002 and SNI-1726-2002. This structure will be evaluated utilizing the FEMA 440 and FEMA 356 procedures, as well as SNI 1726:2019. The results show that the structure meets the minimal performance limit criteria (which is life safety) in terms of displacement and drift values from the pushover analysis, based on FEMA 356 and FEMA 440 performance levels. The evaluation indicates better structural response parameter values (R, Ω0, and Cd) than that of SNI 1726:2019, indicating that the building performance is good and capable of withstanding the design earthquake load.

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EVALUASI STRUKTUR GEDUNG DENGAN SISTEM RANGKA BETON PEMIKUL MOMEN KHUSUS BERBASIS KINERJA

JMTS: Jurnal Mitra Teknik Sipil ◽

10.24912/jmts.v2i2.4300 ◽

2019 ◽

Vol 2 (2) ◽

pp. 115

Author(s):

Richard Geraldi ◽

Daniel Christianto ◽

Hadi Pranata

Keyword(s):

Life Safety ◽

Direct Displacement Based Design ◽

Fema 356 ◽

Immediate Occupancy ◽

Displacement Based

Indonesia merupakan salah satu wilayah yang memiliki resiko tinggi terhadap terjadinya gempa bumi. Gempa bumi yang terjadi dapat menimbulkan kerugian yang sangat besar, salah satunya adalah korban jiwa dalam jumlah yang besar. Oleh karena itu, diperlukannya suatu bangunan tahan gempa untuk mengurangi kerugian yang dapat terjadi. Perencanaan gempa yang umum digunakan saat ini adalah perencanaan berbasis gaya, dimana respons struktur terhadap gempa dianalisis pada kondisi elastis. Namun, pada kondisi sebenarnya struktur akan mengalami kondisi inelastis ketika terkena gempa. Untuk mengatasi kekurangan itu, berkembanglah perencanaan berbasis perpindahan dimana gaya gempa desain ditentukan berdasarkan perpindahan maksimum yang diizinkan pada kondisi inelastik dan kinerja minimum yang diharapkan dari suatu gedung berdasarkan fungsinya. Peraturan gempa yang ada saat ini menggunakan perencanaan berbasis gaya sehingga diperlukan evaluasi terhadap bangunan untuk memastikan kinerjanya pada tingkat minimum yang diizinkan. Untuk menganalisis bangunan pada kondisi inelastik, digunakan analisis pushover dan Direct Displacement Based Design yang diharapkan dapat menggambarkan kondisi bangunan yang sebenarnya. Tingkat kinerja dari struktur bangunan yang didesain berdasarkan SNI 1726:2012 dievaluasi dengan menggunakan metode kapasitas spektrum yang diatur dalam ATC-40 dan FEMA 440 serta metode koefisien perpindahan yang diatur dalam FEMA 356 dan FEMA 440. Hasil yang diperoleh menggambarkan bahwa bangunan yang didesain dengan SNI 1726:2012 ini memiliki tinkat kinerja Immediate Occupancy yang berarti bahwa bangunan ini memenuhi tingkat kinerja minimum yang ditetapkan, yaitu life safety.

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EVALUASI KINERJA STRUKTUR GEDUNG DUAL SYSTEM BERBASIS KINERJA

JMTS: Jurnal Mitra Teknik Sipil ◽

10.24912/jmts.v1i2.2665 ◽

2018 ◽

Vol 1 (2) ◽

pp. 91

Author(s):

Dave Fernando Indotjoa ◽

Daniel Christianto ◽

Hadi Pranata

Keyword(s):

Dual System ◽

Performance Based Design ◽

Direct Displacement Based Design ◽

Fema 356 ◽

Displacement Based

Struktur penahan gaya gempa secara umum memakai konsep Force Based Design. Konsep dari Force Based Design hanya berdasarkan kondisi elastis struktur dan tidak sesuai dengan kondisi sebenarnya dimana struktur gedung mengalami kondisi inelastis ketika mengalami peristiwa gempa. Sehingga perlu dilakukan analisis evaluasi kinerja struktur untuk mengetahui kinerja gedung ketika mencapai kondisi inelastis yang merupakan konsep Performance Based Design. Dalam penilitian ini terdapat dua metode yang dipakai untuk analisis gedung ketika mengalami kondisi inelastis, yaitu metode Direct Displacement Based Design dan metode analisis Pushover. Tujuan dalam penelitian ini untuk mengidentifikasi dan membandingkan kinerja struktur bangunan antara metode-metode tersebut. Penelitian digunakan program ETABS untuk mengetahui berapa besar gaya dan perpindahan yang dapat ditahan oleh struktur. Melalui program ETABS dapat diketahui pula level kinerja struktur bangunan tersebut. Tipe struktur bangunan yang dimodelkan berupa bangunan dengan sistem ganda. Bangunan terbuat dari beton bertulang, jarak bentang arah memanjang 53.7 m, jarak bentang arah memendek 36.2 m, dengan ketinggian 64.5 m, tinggi tiap lantai 4.3 m. Penelitian mengacu pada SNI 1726:2012, ATC-40, FEMA 356, dan FEMA 440.

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Non-Linear Static Analysis of RCC Framed Structures with and Without Infill Walls

International Journal of Innovative Technology and Exploring Engineering - Special Issue ◽

10.35940/ijitee.a5248.119119 ◽

2019 ◽

Vol 9 (1) ◽

pp. 1962-1967

Keyword(s):

Pushover Analysis ◽

Seismic Zone ◽

Infill Walls ◽

Framed Structures ◽

Equivalent Strut ◽

Non Linear ◽

Structural Engineer ◽

Earthquake Load ◽

Design Earthquake ◽

Static Pushover Analysis

The concept of an earthquake is becoming an exceptional study in our use because no longer a particular area can be targeted as an earthquake-resistant area. So, the main motif of any structural engineer during the design is to design a structure that could cope with seismic pressure successfully. On this note, non-linear static pushover analysis has become a prominent tool for the structural design and evaluation of RC elements. In this project G + 5, G + 9, G + 5 with infill walls and G + 9 with infill walls RCC framed structures have been analyzed by the use of SAP 2000 v19. The structures are designed as in keeping with IS 1893(Part 1): 2002 for earthquake forces in seismic zone IV. The use of the equivalent strut approach for modeling the infill walls is adopted and strut is designed in accordance with FEMA-356. Non-linear Static pushover analysis is performed on the designed RCC framed structures with and without infill walls. And pushover results are used to evaluate structural performance under design earthquake load, and code requirements are discussed.

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PERENCANAAN STRUKTUR DENGAN METODE DDBD BESERTA TINGKAT KINERJANYA DAN IDEALISASINYA TERHADAP SNI 1726 : 2012

JMTS: Jurnal Mitra Teknik Sipil ◽

10.24912/jmts.v1i1.2251 ◽

2018 ◽

Vol 1 (1) ◽

pp. 139

Author(s):

Nikko Rianto ◽

Edison Leo

Keyword(s):

Control Parameter ◽

Damage Control ◽

Direct Displacement Based Design ◽

Fema 356 ◽

Displacement Based

Perencanaan struktur bangunan gedung tinggi terhadap beban gempa umumnya dilakukan pendekatan desain berbasis gaya. Dalam desain berbasis gaya, biasanya akan dihitung nilai gaya geser dasar desain untuk meramalkan berapa besar nilai gaya yang diberikan pada bangunan pada saat gempa terjadi. Sedangkan dalam desain berbasis kinerja, untuk meramalkan berapa besar gaya geser desain yang diberikan pada bangunan saat terjadi gempa untuk mencapai kinerja struktur yang diinginkan, salah satunya adalah metode Direct Displacement Based Design (DDBD) Priestley et.al. 2007. Dalam metode ini perpindahan sebagai dasar penentuan beban gempa. Desain dengan metode DDBD diverifikasi apakah desain sudah sesuai dengan tingkat kinerja yang ingin dicapai dilakukan analisis pushover. Hasil dari analisis pushover berdasarkan pada prinsip desain balok lemah kolom kuat, sehingga sendi plastis tidak boleh terjadi pada kolom sebelum balok mengalami keruntuhan. Dari hasil analisis pushover akan didapatkan kurva kapasitas yang akan menjadi dasar penentuan tingkat kinerja dan sesuai dengan ATC-40, FEMA 356, dan FEMA 440. Kemudian kurva kapasitas tersebut diolah dengan pendekatan gaya untuk mendapatkan parameter-parameter respons struktur R, , dan Cd dan dibandingkan dengan yang terdapat pada SNI 1726 : 2012. Tingkat kinerja struktur gedung yang didapat berada pada level Damage Control. Parameter respons struktur yang didapat lebih kecil daripada yang tercantum pada SNI 1726 : 2012.

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Modelling Blast Effects on a Reinforced Concrete Bridge

Advances in Civil Engineering ◽

10.1155/2016/4167329 ◽

2016 ◽

Vol 2016 ◽

pp. 1-11 ◽

Cited By ~ 1

Author(s):

Markellos Andreou ◽

Anastasios Kotsoglou ◽

Stavroula Pantazopoulou

Keyword(s):

Reinforced Concrete ◽

Pushover Analysis ◽

Structural Response ◽

Concrete Bridge ◽

Blast Loads ◽

Existing Structures ◽

Reinforced Concrete Bridge ◽

Blast Effects ◽

Displacement Based ◽

Engineering Practices

The detailed investigation of blast phenomena and their catastrophic effects on existing structures are the main objectives of the present paper. It is well known that blast phenomena may be characterized by significant complexity, often involving complicated wave propagation effects as well as distinguishable material behaviors. Considering the above and in an attempt to provide a simplified modelling approach for the simulation of blast effects, a novel procedure is presented herein based on well-established methodologies and common engineering practices. In the above framework, firstly, the “predominant” deformation shape of the structure is estimated based on elastic finite element simulations under blast loads and then the structural response of the system is evaluated as a result of common computational beam-element tools such as displacement-based pushover analysis. The proposed methodology provides an immediate first estimation of the structural behavior under blast loads, based on familiar engineering procedures. A two-span reinforced concrete bridge was thoroughly investigated and the results provide insightful information regarding the damage patterns and localization.

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Comparison of Pushover Method and Direct Displacement Method in Earthquake Load Analysis with Performance-Based Design Concepts

UKaRsT ◽

10.30737/ukarst.v4i2.1025 ◽

2020 ◽

Vol 4 (2) ◽

pp. 192

Author(s):

Dr. Ir. I Nengah Sinarta,ST.MT. (Scopus Id:57118092800) ◽

I Made Bagastia Pinandika

Keyword(s):

Design Method ◽

Pushover Analysis ◽

Analysis Method ◽

Displacement Method ◽

Performance Levels ◽

Earthquake Loads ◽

Direct Displacement Based Design ◽

Total Displacement ◽

Target Values ◽

Earthquake Load

The development of earthquake-resistant building designs led to developing an analysis method for earthquake loads, one of the performance-based methods. This method uses structural displacement as an approach. The purpose of this analysis method was to guarantee the structure's performance so that it will be able to withstand forces due to earthquake loads. In this paper, an analysis of a building structure's design was more reliable with applicable regulations in Indonesia and determined building performance based on FEMA 356. The study was carried out using the direct displacement method and the pushover analysis method, with the displacement targets and structure performance levels being compared with each other. Based on these results, it can conclude that the use of the direct displacement method and pushover analysis can produce almost the same displacement target values and structure performance levels. Comparison using pushover analysis design performance targets can be fulfilled so that the Direct Displacement Based Design Method can be used in structures. The total displacement value of the x-x (δT) direction is 0.300 m, and the y-y course is 0.115 m.

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EVALUASI STRUKTUR SISTEM RANGKA GEDUNG DENGAN DINDING GESER BERBASIS KINERJA

JMTS: Jurnal Mitra Teknik Sipil ◽

10.24912/jmts.v2i2.4299 ◽

2019 ◽

Vol 2 (2) ◽

pp. 105

Author(s):

Bobby Septianto ◽

Daniel Christianto ◽

Hadi Pranata

Keyword(s):

Performance Based Design ◽

Direct Displacement Based Design ◽

Fema 356 ◽

Immediate Occupancy ◽

Displacement Based

Indonesia merupakan daerah dengan resiko gempa tinggi, dimana dibutuhkan perencanaan tahan gempa. Struktur penahan gaya gempa secara umum memakai konsep Force Based Design. Konsep dari Force Based Design hanya berdasarkan kondisi elastis struktur dan tidak sesuai dengan kondisi sebenarnya dimana struktur gedung mengalami kondisi inelastis ketika mengalami guncangan gempa. Sehingga perlu dilakukan analisis evaluasi kinerja struktur untuk mengetahui kinerja gedung ketika mencapai kondisi inelastis yang merupakan konsep Performance Based Design. Dalam penelitian ini terdapat dua metode yang dipakai untuk analisis gedung ketika mengalami kondisi inelastis, yaitu metode Direct Displacement Based Design (DDBD) dan metode analisis statik nonlinier Pushover. Tujuan dalam penelitian ini untuk mengindentifikasi hasil output dari kurva kapasitas dan kinerja struktur dari metode ATC-40, FEMA 356, dan FEMA 440, serta membandingkan nilai gaya geser dasar antara SNI 1726:2012 dengan metode DDBD. Tipe struktur bangunan yang dimodelkan berupa bangunan sistem rangka gedung dengan dinding geser. Dari hasil analisis, untuk sistem rangka gedung dengan dinding geser, gaya geser dasar yang diperoleh dari perhitungan dengan metode Direct Dipslacement Based Design lebih kecil dari gaya geser dasar analisis gempa menurut SNI 1726:2012. Dari berbagai metode yang direncanakan sesuai dengan peraturan SNI 1726:2012 menghasilkan level kinerja yang sama menurut ATC-40, FEMA 356, dan FEMA 440 yaitu Immediate Occupancy.

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Problems associated with direct displacement-based design of concrete bridges with single-column piers, and some suggested improvements

Bulletin of Earthquake Engineering ◽

10.1007/s10518-012-9354-y ◽

2012 ◽

Vol 10 (4) ◽

pp. 1237-1266 ◽

Cited By ~ 11

Author(s):

A. J. Kappos ◽

I. G. Gidaris ◽

K. I. Gkatzogias

Keyword(s):

Concrete Bridges ◽

Direct Displacement Based Design ◽

Single Column ◽

Displacement Based

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A Displacement-Based Optimal Design Method of RC Frames Subjected to Minor Earthquakes

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.594-597.795 ◽

2012 ◽

Vol 594-597 ◽

pp. 795-799

Author(s):

Gui Tao Chen ◽

De Min Wei

Keyword(s):

Optimal Design ◽

Optimization Design ◽

Virtual Work ◽

Design Method ◽

Horizontal Displacement ◽

Target Displacement ◽

Programming Technique ◽

Direct Displacement Based Design ◽

Rc Frames ◽

Displacement Based

A displacement-based optimization design method of RC structure was proposed by combining direct displacement-based design method with nonlinear programming technique. To avert the influence of target displacement, the stationary constraint displacement was presented, and the target displacement can be updated during the optimal design process. Principle of virtual work and Gaussian integral method was employed to simplify the explicit relationship between horizontal displacement and the section dimension. Comparison analysis of the local optimal results corresponding to different displacement shapes was conducted to achieve global optimal design. The numerical tests presented demonstrate the computational advantages of the discussed methods and suggesting that the proposed method is a reliably and efficiently tool for displacement-based optimal design.

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Applicability of the direct displacement-based design procedure to concentrically braced frames with setbacks

Journal of Structural Integrity and Maintenance ◽

10.1080/24705314.2021.1914806 ◽

2021 ◽

Vol 6 (3) ◽

pp. 167-176

Author(s):

Suhaib Salawdeh

Keyword(s):

Design Procedure ◽

Braced Frames ◽

Concentrically Braced Frames ◽

Direct Displacement Based Design ◽

Concentrically Braced ◽

Displacement Based

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