Comparison of Building Structure Planning with SNI 2847-2013 Method and SAP2000 V.19 Software Code ACI 318-14

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Ada Bina Avizan
Koespiadi Koespiadi

Abstract

Building construction planning in Indonesia uses SNI 2847: 2013 regulatory guidelines especially in building planning. So we need a combination of standardization used with technological developments that are realized in a computer program to simplify and speed up calculations. The results of the calculation of beam structures and concrete columns in the final project calculations using SNI 2847: 2013 regulations and analysis using SAP2000 code ACI318-14 software obtained the results: a) In plimelinary beam designs with sizes B1 30/40 cm and B2 40/55 cm are not able hold the load on the structure (over strange), then the beam dimensions are enlarged to B1 30/60 cm and B2 40 / 60cm. In the SAP2000 output analysis results after the beam dimensions are enlarged there are no over strange frames and meet the strength of the structure. b) From the beam analysis planning on bending reinforcement using SNI 03-2847-2013 concrete reinforcement regulations and using SAP2000 code ACI318-14 software analysis, the number of reinforcement obtained is more using SNI 03-2847-2013 concrete reinforcement regulations compared to using software analysis SAP2000 code ACI318-14 the amount of reinforcement used has a difference of 0.17%. c). From the planning of column analysis on bending reinforcement using SNI 03-2847-2013 concrete reinforcement regulations and using SAP2000 code ACI318-14 software analysis, the same amount of reinforcement is obtained between calculations using SNI 03-2847-2013 concrete reinforcement regulations and using SAP2000 code ACI318 software analysis -14.

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How to Cite
AvizanA., & KoespiadiK. (2020). Comparison of Building Structure Planning with SNI 2847-2013 Method and SAP2000 V.19 Software Code ACI 318-14. JTI nternational ournal of ransportation and nfrastructure ISSN 2597-4769 ISSN 2597-4734, 3(1), 1-10. https://doi.org/10.29138/ijti.v3i1.1050
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References

Asroni, Ali. 2010. Reinforced Beams and Concrete Plates. Graha Science. Yogyakarta.
Chu-Kia Wang, Salmon Charles G. 1993. Reinforced Concrete Design. Erlangga. Jakarta
Hambali, Achmad. 2016. “Comparison of Earthquake Resistant Structure Planning Based on SNI 03-1726-2002 and SNI 03-1726-2012 Case Study Malioboro City Yogyakarta Apartments”. Thesis. Department of Civil Engineering, Faculty of Engineering, Muhammadiyah University, Yogyakarta. Yogyakarta
Karna, I Putu Bagus Brahmantya. 2015. “Comparison of Building Structure Behavior Without And With Reinforced Concrete Sliding Walls”. Thesis. Jurusan Civil Engineering, Faculty of Engineering, Udayana University. Denpasar
Lukmansa, Indra. 2015. “Comparative Study of Steel Structure Planning Using Ordinary Profiles and Kastela Profiles in the PGN Building Project in Surabaya”. Thesis. Department of Civil Engineering, Faculty of Engineering, University 17 August. Surabaya
Mulyo, A. 2004. Introduction to Earth Sciences. Loyal Heritage. Bandung.
Muto, K. dan Wira. 1987. Analysis of the Design of Earthquake Resistant Buildings. Erlangga. Jakarta.
National Standardization Agency (2012). The Procedure for Designing Earthquake Resilience for Buildings (SNI 03-1726:2012., Indonesian National Standards. Jakarta
National Standardization Agency (2013). Structural Concrete Arrangements For Buildings (SNI 2847:2013 Indonesian National Standards. Jakarta
National Standardization Agency (2013). Minimum Load For Building Planning And Other Structures (SNI 1727:2013). Indonesian National Standards. Jakarta
Nasution, Amrinsyah. 2009. Analisis dan Desain Struktur Beton Bertulang. ITB. Bandung.
Prawirodikromo, W. 2012. Seismology Engineering & Earthquake Engineering. Student Library. Yogyakarta.
Servie O, Dapas, Ronny Pandalake. 2018. “Planning of Reinforced Concrete Building Structures with Special Moment Resistant Frame Systems”. Thesis. Department of Civil Engineering, Faculty of Engineering, Sam Ratulangi University, Manado. Manado
Sugiyono. (2011). Educational Research Methods Quantitative, qualitative and R&D approaches. Alfabeta. Bandung
Tjokrodimuljo, K. 1996. Concrete Technology. Civil Engineering Department, Faculty of Engineering, Gadjah Mada University. Yogyakarta
Tranggono. (2017). Differences of Forces and Behavior of Roof Truss Member on the Placement of Paints and Roller. Jpints (Dama International Journal Of Researchers 2 (12): 9-15
Wuryati, S. & Candra, R. 2001. Concrete Technology. Kansius. Yogyakarta
YudhaPanata, Agus. 2018. “Comparative Analysis of Round and Square Columns Against Performance of Reinforced Concrete Buildings Due to Earthquake Loads Case Study of BKPSDM Building Padang Panjang City”. Thesis. Civil Engineering Department, Faculty of Engineering, Padang Institute of Technology. Padang