KAJIAN TEKNIS GEDUNG BETON BERTULANG DAN PERENCANAAN PERKUATANNYA
Abstract
Changes in the function of existing buildings with changes in load functions that exceed the design load cause structural failure. The impact of structural failure varies from light to moderate, to severe damage and collapse. Thus, structural failure requires efforts to strengthen the structure with good reinforcement methods that are easy to carry out on-site. The existing building studied is the Villa Minggu Seminyak building, which is located on Jl Kunti, Gg Mangga, Seminyak, Kuta, Badung, Bali. To get good and easy-to-do reinforcement results, an investigation is carried out to obtain data on damage to existing buildings, and then analysis and evaluation are carried out. Models and analyses were carried out in 3D using SAP2000 software. The purpose of this research is to determine the behavior of existing structures before and after strengthening. The strengthening method used for column structural components is the Concrete Jacketing method. The results of the analysis show that the capacity of the existing beams and columns is insufficient, where the existing beam B1 reinforcement area of 896.47mm2 is smaller than the required reinforcement area of 1023 mm2, the axial force capacity and ultimate moment of column K1 are outside the interaction diagram and the structure's vibration time is 1.193 seconds smaller than allowable vibration time of 0.351 seconds. Thus, strengthening of the beams and columns is required. The results of the analysis and design show that concrete jacketing reinforcement requires 10 cm thick concrete with 16D13 mm main reinforcement and Ø10-75 mm stirrup reinforcement. This reinforcement can increase the axial load capacity of the column by 314.5%. Strengthening the beam with the addition of WF Steel was able to increase the ultimate moment of the support by 38.7% and the ultimate moment of the field by 39.6%. The ultimate shear force increases by 121.4%. By strengthening the columns and beams, the vibration time of the structure has a shorter duration of 48%, so the structure becomes stiffer.
Downloads
References
Arifi Soenaryo, M. T. H. dan H. S. (2009). Perbaikan Kolom Beton Bertulang Menggunakan Concrete Jacketing dengan Prosentase Beban Runtuh yang Bervariasi. Jurnal Rekayasa Sipil, 3(2), 2–10.
BSN. (2019a). SNI 1726:2019, Tata Cara Perencanaan Ketahanan Gempa Untuk Struktur Bangunan Gedung dan Non Gedung.
BSN. (2019b). SNI 2847:2019, Persyaratan Beton Struktural Untuk Bangunan Gedung dan Penjelasan.
BSN. (2020). SNI 1727: 2020, Beban Desain Minimum dan Kriteria Terkait untuk Bangunan Gedung dan Struktur Lain.
Muslikh, B. S. , A. T. (2015). Perbaikan Balok Beton Bertulang dengan Metode Jacketing dengan Bahan Ferosemen Akibat Beban Siklik pada Beban Ultimit. Semesta Teknika, 14(2), 166–176. https://doi.org/10.18196/st.v14i2.546
Prabowo, A., & Lutfi, M. (2020). Analisis Struktur Bangunan Gedung Sekolah akibat Penambahan Ruang Kelas Baru (Studi Kasus di SMK Bina Putera Kota Bogor). Jurnal Manajemen Aset Infrastruktur & Fasilitas, 4(2), 133–148. https://doi.org/10.12962/j26151847.v4i2.6887
Putri, I., Putri, J., & Indianto, A. (2020). Perkuatan Model Kolom Beton Dengan Menggunakan Carbon Fiber Reinforced Polymer. Prosiding Seminar Nasional …, 246–251. http://prosiding-old.pnj.ac.id/index.php/snts/article/view/3784%0Ahttps://prosiding-old.pnj.ac.id/index.php/snts/article/download/3Arifi Soenaryo, M. T. H. dan H. S. (2009). Perbaikan Kolom Beton Bertulang Menggunakan Concrete Jacketing dengan Prosentase Beban Runtuh yang Bervariasi. Jurnal Rekayasa Sipil, 3(2), 2–10.
BSN. (2019a). SNI 1726:2019, Tata Cara Perencanaan Ketahanan Gempa Untuk Struktur Bangunan Gedung dan Non Gedung.
BSN. (2019b). SNI 2847:2019, Persyaratan Beton Struktural Untuk Bangunan Gedung dan Penjelasan.
BSN. (2020). SNI 1727: 2020, Beban Desain Minimum dan Kriteria Terkait untuk Bangunan Gedung dan Struktur Lain.
Muslikh, B. S. , A. T. (2015). Perbaikan Balok Beton Bertulang dengan Metode Jacketing dengan Bahan Ferosemen Akibat Beban Siklik pada Beban Ultimit. Semesta Teknika, 14(2), 166–176. https://doi.org/10.18196/st.v14i2.546
Prabowo, A., & Lutfi, M. (2020). Analisis Struktur Bangunan Gedung Sekolah akibat Penambahan Ruang Kelas Baru (Studi Kasus di SMK Bina Putera Kota Bogor). Jurnal Manajemen Aset Infrastruktur & Fasilitas, 4(2), 133–148. https://doi.org/10.12962/j26151847.v4i2.6887
Putri, I., Putri, J., & Indianto, A. (2020). Perkuatan Model Kolom Beton Dengan Menggunakan Carbon Fiber Reinforced Polymer. Prosiding Seminar Nasional …, 246–251. http://prosiding-old.pnj.ac.id/index.php/snts/article/view/3784%0Ahttps://prosiding-old.pnj.ac.id/index.php/snts/article/download/3784/2165
Saruni, C. V, Dapas, S. O., & Manalip, H. (2017). Evaluasi dan analisis perkuatan bangunan yang bertambah jumlah tingkatnya. Sipil Statik, 5(9), 591–602.
Satrio, B. D., Pratama, G. P., Tudjono, S., & Wibowo, H. (2016). Kota Semarang Studi Kasus Gedung Kuliah Utama Fakultas Teknik Universitas Diponegoro. Jurnal Karya Teknik Sipil, 5(1), 37–48. http://ejournal-s1.undip.ac.id/index.php/jkts
Sumajouw, M. D. J., & Pandeleke, R. E. (2016). Kajian Kapasitas Perkuatan Kolom Beton Bertulang Dengan Tambahan Abu Terbang (Fly Ash) Terhadap Variasi Beban Runtuh Dengan Metode Concrete Jacketing. Tekno, 14(65), 29–36.
Syofyan, E. R. (2016). Perbaikan Struktur Bangunan Pasca Gempa dengan menggunakan Serat Karbon (Studi Kasus Gedung Kantor Bea dan Cukai Teluk Bayur Padang) Repair with Post-Earthquake Building Structure using Carbon Fiber Office Building Case Study Customs and Excise Teluk Bayu. Poli Rekayasa, 11(2), 32–41.