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All Journal Jurnal Teknik Sipil
Sindur P. Mangkoesoebroto
Institut Teknologi Bandung Jalan Ganesa 10, Bandung 40132.
Civil Engineering, Building, Construction & Architecture

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Keruntuhan Jembatan Gantung Kartanegara Tragedi dalam Proses Rancang Bangun Infrastruktur Mangkoesoebroto, Sindur P.
Jurnal Teknik Sipil Vol 19, No 3 (2012)
Publisher : Institut Teknologi Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (3246.395 KB)

Abstract

Abstrak. Keruntuhan Jembatan Gantung Kartanegara – Tenggarong – Kalimantan Timur pada hari Sabtu 26 November 2011 sekira pukul 16:15 WITA telah banyak diulas. Pada makalah ini disampaikan suatu analisis keadaan jembatan menjelang keruntuhannya. Berdasarkan observasi lapangan, data primer dan sekunder, dibangun suatu hipotesa kegagalan yang realistis. Hipotesa tersebut diuji secara kuantitatif menggunakan solusi tertutup maupun metode elemen hingga. Pemodelan dilakukan dengan mempertimbangkan sifat nonlinier material dan geometri untuk perpindahan berhingga sesuai komponen struktur dan konfigurasi terpasang. Integrasi persamaan gerak dilakukan secara tahap-demi-tahap dan fenomena transien diantisipasi melalui step waktu yang cukup rapat. Kesimpulan adalah bahwa ada dua penyebab primer kegagalan jembatan secara berturutan sesuai tingkat keutamaannya yaitu keberadaan tower strap dan kegagalan pondasi blok angkur sisi Tenggarong. Kedua penyebab primer tersebut menunjukkan kelalaian pada tahapan perancangan dan pembangunan jembatan, dan telah menyebabkan tragedi yang dapat dihindarkan. Penyebab sekunder berupa tahanan rangka jembatan yang tidak direncanakan secara memadai menimbang keberadaan tower strap dan decambering rangka jembatan yang merupakan akibat dari salah satu atau kombinasi penyebab tersebut sebelumnya, juga telah menjadi penyebab keruntuhan jembatan.Abstract. The collapse of Kartanegara Suspension Bridge – Tenggarong – East Kalimantan on Saturday, November 26, 2011, at 16:15, was covered widely. The paper attempted to asses the condition of the bridge prior to the event. Based upon observation and primary as well as secondary data collected, a realistic hypothesis was developed. The hypothesis was exercised by means of closed form solution as well as the finite element method. A computer model was generated by considering both material and geometry nonlinearity for finite displacement based on the actual structural component and configuration. A nonlinear step-by-step direct integration of the equation of motion considering transient phenomena was carried out. The time step was maintained sufficiently fine. The  onclusions pointed out that there were two primary factors responsible for the bridge collapse, i.e. by the order of severity, the existence of tower strap and the creep due to foundation failure of the anchor block on Tenggarong side. The flaws originated during design and construction and had caused an avoidable tragedy. The strength inadequacy of the stiffening girder in the presence of tower straps and the decambering of stiffening girder, which also caused the collapse, was the result of one of the factors, or combination thereof.
Alat Pelesap Energi Gempa Uniaksial Mangkoesoebroto, Sindur P.
Jurnal Teknik Sipil Vol 20, No 1 (2013)
Publisher : Institut Teknologi Bandung

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Abstract

Abstrak. Suatu invensi berupa alat pelesap energi gempa uniaksial dikembangkan dan dibahas secara rinci. Alat tersebut dimaksudkan untuk melindungi struktur bangunan gedung dari kerusakan yang berlebih pada saat kejadian gempa. Energi gempa input pada struktur bangunan gedung direncanakan untuk dimusnahkan oleh alat yang merupakan bagian dari bresing tahan tekuk. Bresing tersebut dipasang pada portal yang merupakan bagian dari rangka pemikul beban gempa. Alat dapat dipasang pada struktur bangunan gedung baru ataupun eksisting, tanpa memerlukan modifikasi signifikan. Alat dibuat cukup ringkas demikian sehingga memudahkan perawatan, operasi, dan perbaikan bila diperlukan. Alat tersebut telah dipatenkan. Abstract. Invention of uniaxial seismic energy dissipater was developed and analyzed in detail. The device is intended to protect building structures from extensive damage during major earthquakes. The earthquake input energy is designed to be absorbed by the device which is part of a buckling resistant bracing. The bracings are constructed in the seismic resisting frames of building structures. The dissipater can be built in the newly constructed as well as existing building structures without major modification requirements. The design of the device is simple enough to facilitate easy maintenance, operation, and repair when needed. The apparatus was patented.
Seismic Design and Risk Analyses of Safe-to-Fail Steel and RC Frames for Nuclear Facilities Mangkoesoebroto, Sindur P.; Rianto, Shandy
Jurnal Teknik Sipil Vol 31 No 2 (2024): Jurnal Teknik Sipil - Edisi Agustus
Publisher : Institut Teknologi Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5614/jts.2024.31.2.1

Abstract

Abstract In this article, the design and estimate of the collapse risk of safe-to-fail steel and reinforced concrete (RC) frames due to earthquakes were proposed. The frames are part of nuclear facility buildings, and their failures are to follow the safe-to-fail beam side-sway collapse mechanism. The safe-to-fail was dictated by allowing plastic hinges to form merely in beams and few in columns; no other failure but flexure was tolerated such as shear, local or lateraltorsional buckling. Two types of safe-to-fail frames were studied, one with special moment frame (SMF) and the other with ordinary moment frame (OMF). The design was elaborated, and the fragility-based collapse risks were estimated and compared. Nonlinear time history analyses were carried out to evaluate the structural performance. The analyses showed that the safe-to-fail OMF had lower collapse risk than the safe-to-fail SMF for both steel and concrete frames. The steel safe-to-fail OMF showed superior behaviours. Keywords: Safe-to-fail; concrete and steel frames; fragility; collapse risk; earthquake; time history analysis.
Co-Authors Rianto, Shandy