Analisis Perencanaan Struktur Kolom Dan Balok Pada Gedung Serbaguna Universitas Sains Cut Nyak Dhien

Penulis

  • Darul Ambia Universitas Sains Cut Nyak Dhein
  • Yuslinda - Universitas Sains Cut Nyak Dhien
  • Cut Meuthia Rani Universitas Sains Cut Nyak Dhein

DOI:

https://doi.org/10.55616/prince.v5i1.1163

Kata Kunci:

Multipurpose Building, SPRMM, SAP2000 Software, Column, Composite Beam

Abstrak

The Multipurpose Building of Cut Nyak Dhien University of Science, located at Jln. Perumnas No.45, Langsa Baro, Langsa City, Aceh, is classified as a Risk Category IV structure due to its function as a public facility. Based on this classification, the building is designed using Seismic Design Category C. The structural system employed is an Intermediate Moment Resisting Frame (IMRF), referring to applicable Indonesian building codes. Earthquake load analysis was conducted using the equivalent static analysis method based on SNI 1726:2012 concerning seismic resistance. All structural elements use reinforced concrete materials according to SNI 2847:2019, which outlines requirements for structural concrete. Structural analysis was performed using SAP2000 v.14 software.The analysis results for the main beam (B1) show support moment of -132.62 kN/m, mid-span moment of 83.52 kN/m, support shear force of -118.58 kN, and mid-span shear force of 110.63 kN. For the tie beam (RB), the support moment is -58.74 kN/m, mid-span moment 35.39 kN/m, support shear -44.62 kN, and mid-span shear 43.49 kN. The main column (K1) yields an axial force of -485.28 kN, bending moment of -76.77 kN/m, and shear force of 126.34 kN.The planned structural dimensions are as follows: Main Beam (B1) measures 40 x 60 cm, with support flexural reinforcement of 13D19, mid-span reinforcement of 7D19, support shear reinforcement D10-100 mm, and mid-span shear reinforcement D10-150 mm. The Ring Beam (RB) measures 25 x 40 cm with support reinforcement of 10D19, mid-span reinforcement of 6D19, support shear D10-75 mm, and mid-span shear D10-100 mm. Meanwhile, the main column (K1) has dimensions of 50 x 50 cm, using 14D19 flexural reinforcement and D10-150 mm shear reinforcement.

Biografi Penulis

Yuslinda -, Universitas Sains Cut Nyak Dhien

Nama : Yuslinda, S.ST, M.T

Tempat/Tanggal Lahir : Alue Bamban, 15 Mei 1990

Afiliasi : Universitas Sains Cut Nyak Dhien, Fakultas Teknik, Prodi Teknik Sipil

Pendidikan : DIV Politeknik Negeri Lhokseumawe, S2 Universitas Syiah Kuala

                      

 

Referensi

[1] Park, R., & Paulay, T. (1975). Reinforced Concrete Structures. John Wiley & Sons. (Referensi klasik untuk analisis dan desain kolom–balok beton bertulang).

[2] MacGregor, J. G. ,& Wight ,J .K .(2012). Reinforced Concrete: Mechanics and Design (6th ed.). Prentice Hall.(Membahas perencanaan kolom dan balok dengan pendekatan kekuatan).

[3] Nilson, A. H., Darwin, D., & Dolan, C. W. (2010). Design of Concrete Structures (14th ed). McGraw-Hill. (Panduan lengkap analisis lentur, geser, dan tekan untuk balok dan kolom.

[4] SNI 2847:2019. Persyaratan Beton Struktural untuk Bangunan Gedung. Badan Standardisasi Nasional. (Standar rujukan utama perencanaan beton bertulang di Indonesia).

[5] SNI 1726:2019. Tata Cara Perencanaan Ketahanan Gempa untuk Struktur Bangunan Gedung dan Non Gedung. Badan Standardisasi Nasional. (Penting untuk kolom–balok dalam sistem rangka pemikul momen).

[6] Wang,C.K., & Salmon, C. G. (1997). Reinforced Concrete Design (6th ed.). Addison-Wesley. (Membahas metode desain balok dan kolom secara detail.

[7] Hognestad, E. (1951). A Study of Combined Bending and Axial Load in Reinforced Concrete Members. University of Illinois Engineering Experiment Station. (Referensi dasar untuk kurva interaksi kolom.

[8] McCormac,J.C., & Brown,R.H. (2015). Design of Reinforced Concrete (10th ed.). Wiley. (Sumber populer untuk mahasiswa dan praktisi dalam analisis elemen struktur.)

[9] ACI Committee 318. (2019). Building Code Requirements for Structural Concrete (ACI 318-19) and Commentary. American Concrete Institute.(Kode internasional yang sangat sering dirujuk untuk perencanaan kolom dan balok.

[10] Chopra, A. K. (2017). Dynamics of Structures (5th ed.). Pearson. (Relevan untuk desain kolom–balok pada kondisi beban gempa).

[11] Peraturan Pemerintah Nomor 16 Tahun 2021 tentang Peraturan Pelaksanaan Undang-Undang Nomor 28 Tahun 2002 tentang Bangunan Gedung. Jakarta

[12] Schodek, Daniel L. (1991). Struktur. Jakarta: Eresco. (Atau edisi revisi yang diterbitkan oleh Penerbit Erlangga.

[13] SNI 1727:2020. (2020). Beban Minimum untuk Perencanaan Bangunan Gedung dan Struktur Lain. Badan Standardisasi Nasional. Jakarta.

[14] Badan Standardisasi Nasional. (2017). SNI 2052:2017 - Baja tulangan beton. Jakarta.

[15] Dipohusudo, Istimawan. (1999). Struktur Beton Bertulang. PT Gramedia Pustaka Utama, Jakarta.

Diterbitkan

2026-03-31

Cara Mengutip

Darul Ambia, -, Y., & Cut Meuthia Rani. (2026). Analisis Perencanaan Struktur Kolom Dan Balok Pada Gedung Serbaguna Universitas Sains Cut Nyak Dhien. Jurnal Perencanaan Dan Penelitian Teknik Sipil, 5(1), 875–885. https://doi.org/10.55616/prince.v5i1.1163

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