Application of BIM5D Technology in the Construction of Super High-Rise Buildings
DOI: 10.23977/jceup.2024.060302 | Downloads: 0 | Views: 24
Author(s)
You Li 1, Hui Zhong 2
Affiliation(s)
1 School of Architecture and Engineering, Guangxi Mechanical and Electrical Vocational and Technical College, Nanning, Guangxi, China
2 Laibin Tobacco Monopoly Bureau, Laibin, Guangxi, China
Corresponding Author
You LiABSTRACT
Super high-rise buildings are iconic landscapes of modern cities, but they face technical challenges in design, construction, and use. Building Information Modeling 5 Dimensions (BIM5D) technology, as an integrated data management platform, provides new solutions for the construction of super high-rise buildings by combining three-dimensional geometric models, time, and cost dimensions. This article first introduces the BIM5D technology framework, including its quantitative analysis methods in construction cost, time, and risk management. Subsequently, it explored the construction and integration process of the BIM5D model, as well as the application of construction simulation and visualization technology in project management. The experimental results show that BIM5D technology significantly improves construction efficiency, with a minimum project productivity of 62 square meters per day. In terms of quality control, the construction qualification rate is as high as 98.9%, reducing errors and rework during the construction process. In terms of cost savings, the highest savings reached 4.53 million USD, demonstrating the potential of BIM5D technology in cost management. Compared with traditional construction methods, BIM5D technology has shown significant advantages in multiple key performance indicators, including shortened construction cycles, improved labor productivity, and reduced material waste.
KEYWORDS
BIM5D Technology, Super High-rise Buildings, Construction Management, Cost Control, Construction Efficiency, Quality ControlCITE THIS PAPER
You Li, Hui Zhong, Application of BIM5D Technology in the Construction of Super High-Rise Buildings. Journal of Civil Engineering and Urban Planning (2024) Vol. 6: 10-18. DOI: http://dx.doi.org/10.23977/jceup.2024.060302.
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