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Abstrak :
Salah satu jenis mixed-use building adalah bangunan dengan struktur podium yang memiliki beberapa tower diatasnya. Pada penulisan ini akan dilakukan perbandingan gaya geser tower pada struktur podium multi-tower yang dimodelkan secara utuh dan terpisah dengan metode analisis riwayat waktu. Hasil penelitian ini berupa mode shape, periode, gaya geser, dan respons riwayat waktu. Hasil penelitian menunjukkan periode fundamental struktur podium multi-tower lebih ditentukan oleh periode substruktur tower yang paling fleksibel. Selain itu, partisipasi massa pada struktur podium multi-tower yang bernilai kecil tidak berarti mode tersebut dapat diabaikan. Gaya geser tower pada permodelan utuh menunjukkan nilai yang lebih besar 8,14% - 42,65%. ......One of the most commonly found forms of mixed-use building is a couple of towers with a podium structure beneath them. Comparison on shear forces of complete and separate modelling are discussed on the paper which resulting in mode shape, period, shear forces, and time history responses. Based on the acquired results, fundamental period of the podium multi-tower structure is represented by the period of the most flexible substructure. Small-valued mass participations of podium multi-tower structure are not necessarily meant to be insignificant in calculations. Base shear of towers with complete modelling are shown to be 8,14% - 42,65% larger.

Abstrak :
Sebuah struktur yang didesain dengan baik serta melewati tahap konstruksi yang tepat akan mengurangi terjadinya berbagai resiko kerugian yang mungkin ada pada sebuah pekerjaan konstruksi. Sebagai konsekuensinya, perkembangan teknologi BIM menjadi solusi dalam mewujudkan hal tersebut melalui kemampuan integrasi informasi yang ditawarkan. Dalam penelitian ini dilakukan analisis dan desain pada sebuah struktur multitower dengan penggunaan BIM selama proses desain. Penelitian dilakukan dengan melanjutkan proses desain dua buah struktur yang sudah didesain secara terpisah secara sekaligus saat dihubungkan skybridge. Penelitian dimulai dengan menghubungkan dua buah struktur tanpa adanya perubahan dimensi elemen untuk melihat perubahan perilaku struktur dengan konsisten. Penelitian dilanjutkan dengan melakukan evaluasi desain menggunakan analisis respon spektrum dan riwayat waktu pada struktur yang telah dihubungkan. Integrasi BIM kemudian dilakukan untuk memperoleh volume beton dan penulangan yang diperlukan dalam perhitungan biaya. Hasil penelitian ini menunjukkan bahwa dua buah struktur yang terpisah akan mengalami perilaku dinamik saat dihubungkan yang akan berpengaruh pada desain struktur, terutama dalam menahan gaya lateral seperti beban gempa. Lebih lanjut, hasil dari penelitian ini menunjukkan adanya potensi bagi BIM untuk membantu proses desain dan pengolahan hasil desain walau belum sempurna dan perlu dikembangkan lebih lanjut. ...... A well-designed structure that goes through proper construction stages will reduce the risk of losses that may be apparent in construction work. Consequently, the development of BIM technology becomes a solution for achieving it through the ability of information integration that it offers. In this study, analysis and design of a multitower structure are conducted with BIM usage during the design process. The study is carried out by designing two separately designed structures when a skybridge connects them. The study is started by joining both structures without any changes in element sizes to compare the changes in the structural behavior consistently. The study is then continued by doing design evaluations on the connected structure with response spectrum and time history analyses. BIM integration is then used to obtain concrete and bar volumes necessary for cost calculations. The results show that two separate structures will have changes in their dynamic behaviors when they are connected, which will affect their design, especially in resisting lateral forces like earthquake load. Further, this study shows the potential of BIM in helping structural designs process despite its imperfections and further developments needed.

Abstrak :
[Penelitian ini membahas mengenai analisis perilaku dinamik struktur bangunan tahan gempa dengan perletakan terisolasi dengan cara membandingkannya dengan bangunan dengan perletakan tetap. Bangunan dengan perletakan terisolasi dimodelkan dengan menggunakan base isolation yang sesuai dengan yang digunakan oleh rumah sakit UI, sementara bangunan dengan perletakan tetap dimodelkan dengan menggunakan perletakan jepit. Beban gempa yang digunakan adalah beban gempa riwayat waktu northridge, kobe, dan el-centro yang telah diskalakan dengan respon spektrum Depok sesuai dengan SNI 1726:2012 Tata cara perencanaan ketahanan gempa untuk struktur gedung dan non gedung. Analisa yang digunakan yaitu nonlinear time history direct integration. Nonlinearitas dari bangunan didapatkan dari material dan geometri yang diwakilkan oleh sendi plastis pada bangunan dengan perletakan tetap dan base isolator yang telah berdeformasi melebihi batas lelehnya pada bangunan dengan perletakan terisolasi. Dari hasil penelitian menunjukkan penggunaan base isolator pada struktur bangunan tahan gempa meningkatkan peforma bangunan akibat beban gempa, serta memperkecil gaya dalam element-element struktur bangunan. ......This study discusses the comparison of the dynamic behaviour analysis of the isolated base seismic structure and fixed base structure. The isolator used in the mathematical model of the isolated base structure in this study is the same with the isolator that will be used in the real UI Hospital Building, while the fixed base structure modeled by rigid base. The seismic load used in this study are time history seismic load of Northridge, Kobe, and El Centro. The time history is scaled by the factor appropriate with SNI 1726:2012. Nonlinear time history direct analysis method will be performed in this study. The nonlinearity of the structure consists of geometrical nonlinearity and material nonlinearity gained from the plastic hinge and the deformation of the isolator that exceed its yield deformation point. Result shows that isolated base structure has better performances than fixed base structure. It showed by the decreasing amount of the internal forces of each elements of the structure.;This study discusses the comparison of the dynamic behaviour analysis of the isolated base seismic structure and fixed base structure. The isolator used in the mathematical model of the isolated base structure in this study is the same with the isolator that will be used in the real UI Hospital Building, while the fixed base structure modeled by rigid base. The seismic load used in this study are time history seismic load of Northridge, Kobe, and El Centro. The time history is scaled by the factor appropriate with SNI 1726:2012. Nonlinear time history direct analysis method will be performed in this study. The nonlinearity of the structure consists of geometrical nonlinearity and material nonlinearity gained from the plastic hinge and the deformation of the isolator that exceed its yield deformation point. Result shows that isolated base structure has better performances than fixed base structure. It showed by the decreasing amount of the internal forces of each elements of the structure.;This study discusses the comparison of the dynamic behaviour analysis of the isolated base seismic structure and fixed base structure. The isolator used in the mathematical model of the isolated base structure in this study is the same with the isolator that will be used in the real UI Hospital Building, while the fixed base structure modeled by rigid base. The seismic load used in this study are time history seismic load of Northridge, Kobe, and El Centro. The time history is scaled by the factor appropriate with SNI 1726:2012. Nonlinear time history direct analysis method will be performed in this study. The nonlinearity of the structure consists of geometrical nonlinearity and material nonlinearity gained from the plastic hinge and the deformation of the isolator that exceed its yield deformation point. Result shows that isolated base structure has better performances than fixed base structure. It showed by the decreasing amount of the internal forces of each elements of the structure., This study discusses the comparison of the dynamic behaviour analysis of the isolated base seismic structure and fixed base structure. The isolator used in the mathematical model of the isolated base structure in this study is the same with the isolator that will be used in the real UI Hospital Building, while the fixed base structure modeled by rigid base. The seismic load used in this study are time history seismic load of Northridge, Kobe, and El Centro. The time history is scaled by the factor appropriate with SNI 1726:2012. Nonlinear time history direct analysis method will be performed in this study. The nonlinearity of the structure consists of geometrical nonlinearity and material nonlinearity gained from the plastic hinge and the deformation of the isolator that exceed its yield deformation point. Result shows that isolated base structure has better performances than fixed base structure. It showed by the decreasing amount of the internal forces of each elements of the structure.]

Abstrak :
ABSTRAK Penelitian ini bertujuan untuk menghindari terjadinya kegagalan struktur jembatan selama tahap konstruksi, terutama akibat gempa. Jembatan kabel Suramadu yang memiliki bentang utama 818 meter dengan 89 tahap konstruksi, dipengaruhi oleh tiga rekaman gempa berbeda, yaitu gempa Banyuwangi Maret 2011, gempa jember Februari 2011, dan gempa Nusadua September 2009. Analisis riwayat waktu dilakukan agar diperoleh respon struktur dari detik ke detik selama gempa berlansung. Analisis displacement, tegangan pada gelagar, gaya kabel, dan pengaruh rasio redaman struktur, dilakukan pada setiap tahapan konstruksi dan dievaluasi sesuai dengan persyaratan dan peraturan yang ada. Hasil penelitian menunjukkan bahwa respon gempa pada struktur jembatan atas tidak hanya bergantung pada karakteristik dari rekaman gempa yaitu durasi, kandungan frekuensi, percepatan tanah maksimum (PGA), akan tetapi juga bergantung pada karakteristik struktur yaitu massa, kekakuan, dan redaman.

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ABSTRACT This study aims to avoid bridge structure failure during the construction stages, primarily due to earthquake. Suramadu cable-stayed bridge which has main spans 818 m with 89 stages of construction was studied to 3 different earthquakes, namely Banyuwangi earthquake March 2011, Jember earthquake February 2011, and Nusadua earthquake September 2009. Time history analysis was carried out in order to obtain responses of the structure anytime during the earthquake occurred. Analysis of displacement, stress on the girder, cable forces, and also influence of structural damping ratio, was performed at each stage of construction and was evaluated in accordance with the existing requirements and appropriate regulations. The results showed that the seismic responses of upper bridge structures depends not only on the characteristics of earthquake records, namely duration, frequency content, and maximum ground acceleration (PGA), but also on the structural characteristics, namely mass, stiffness, and damping.