Implementasi Building Information Modeling (Bim) Dalam Analisis Waste Material Tulangan Kolom Pada Gedung LVP Production Indonesia

Authors

  • Nanang Aldika Chandra universitas lampung
  • Hasti Riakara Husni
  • Bayzoni Bayzoni
  • Ashruri Ashruri

DOI:

https://doi.org/10.23960/jrsdd.v12i1.4813

Abstract Views: 242 File Views: 101 File Views: 0

Abstract

The rapid development of information technology, especially in the construction sector, has become an important issue in supporting the country's infrastructure needs to produce increasingly high-quality, integrated, and efficient infrastructure products. Therefore, the utilization of Building Information Modeling (BIM) technology has become an alternative that allows construction stages to be faster and more efficient, especially in minimizing waste material. This research aims to determine the influence of applying BIM concepts in optimizing waste materials for column reinforcement of type 1, type 2, and type 3. The research begins with data collection, structural 3D modeling, reinforcement modeling, input of reinforcement mark schedules, clash detection, Bar Bending Schedule (BBS) output, cutting lists, and waste material analysis. The research results show that the total weight requirement of type 1 column reinforcement is 28,449 kg, type 2 column is 26,390 kg, and type 3 column is 26,784 kg, while the total waste weight of type 1 column is 1,256.41 kg, type 2 is 872.6 kg, and type 3 is 916.14 kg. The waste level of type 1 column reinforcement is 4.42%, type 2 column is 3.31%, and type 3 column is 3.42%. Thus, it can be concluded that type 2 column reinforcement is more effective and efficient compared to type 1 and 3 column reinforcement.

Downloads

Download data is not yet available.

Author Biography

Nanang Aldika Chandra, universitas lampung

-

References

Badan Standardisasi Nasional., 2017, Baja Tulangan Beton. Sni 2052-2017, 13.

Eastman, C., Liston, K., Sacks, R., & Liston, K., 2018, BIM Handbook Paul Teicholz Rafael Sacks.

Formoso, C. T., Soibelman, L., De Cesare, C., & Isatto, E. L., 2002, Material Waste in Building Industry: Main Causes and Prevention. Journal of Construction Engineering and Management, 128(4), 316–325.

Hidayah, F. N., Rafie, R., Nuh, S. M., Syahrudin, S., & Lusiana, L., 2023, Comparative Analysis of Direct Waste Using Software Cutting Optimization Pro and the Cost of Using Conventional Reinforcement and Wiremesh in Floor Slab Work. (Case Study: Office and Depot Construction Project of Pt. Gudang Garam). Jurnal Teknik Sipil, 23(1), 103.

Intan, S., Alifen, R. S., & Arijanto, L., 2005, Analisa Dan Evaluasi Sisa Material Konstruksi : Civil Engineering Dimension, 7(1), 36–45.

Mariza, Y., & Marizan, Y., 2019, Penggunaan Software Autodesk Revit. Jurnal Ilmiah Beering’s, 06(01), 15–26.

Muhamad Alimin, Imron Imron, & Muhammad Taulani., 2023, Penerapan Bulding Information Modelling (BIM) Autodesk Revit dalam Pembuatan Bar Bending Schedule (BBS) Pondasi Pile Cap Proyek Apartemen Jkt Living Star - Jakarta Timur. Jural Riset Rumpun Ilmu Teknik, 2(2), 21–32.

Rayendra, & Soemardi, B. W., 2014, Studi Aplikasi Teknologi Building Information Modeling Untuk Pra-Konstruksi. Simposium Nasional RAPI XIII, 13, 14–21.

Downloads

Additional Files

Published

2024-03-23

How to Cite

Chandra, N. A., Husni, H. R., Bayzoni, B., & Ashruri, A. (2024). Implementasi Building Information Modeling (Bim) Dalam Analisis Waste Material Tulangan Kolom Pada Gedung LVP Production Indonesia. Jurnal Rekayasa Sipil Dan Desain, 12(1), Hal. 113 – 124. https://doi.org/10.23960/jrsdd.v12i1.4813

Issue

Vol. 12 No. 1 (2024): Edisi Maret 2024

Section

Makalah Ilmiah Edisi Maret 2024

License

Creative Commons License
JRSDD is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.