The Application of BIM Technology in Prefabricated Buildings
DOI:
https://doi.org/10.54097/wd8j6658Keywords:
Application of BIM; Prefabricated Buildings; Lifecycle Management; RFID Technology.Abstract
With the rapid advancement of digital technology, Building Information Modeling (BIM) has shown exceptional potential in the field of prefabricated construction. This study deeply integrates BIM technology with various stages of prefabricated building, including design, manufacturing, construction, and operation, to achieve information management throughout the entire lifecycle of construction projects. Based on an extensive literature review of the current development of BIM technology and analysis of practical cases both domestically and internationally, this research explores the application strategies of BIM in prefabricated construction. The findings indicate that using BIM technology for architectural design optimization helps ensure standardization and modularization of designs, thereby accelerating the production and construction processes of components. This paper aims to establish a lifecycle cost management model that leverages BIM to effectively control the overall budget, monitor project progress in real time, and reduce the risk of cost overruns. Promoting the standardized application of BIM technology in prefabricated construction and enhancing the modernization of the construction industry holds significant theoretical and practical value.
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References
Xie, H., Xu, H., & Xia, Y. (2024). Analysis of the Current Situation and Prospects of Prefabricated Construction. Guangdong Building Materials, 40(04), 153-156.
Huang, J. (2023). Discussion on the Application of BIM Technology Empowering Intelligent Operation and Maintenance of Drainage Engineering. In Proceedings of the 10th International BIM Technology Exchange Conference - BIM Empowers High-Quality Development of the Construction Industry (pp. 7). China Association for Engineering Graphics, Civil Engineering Graphics Society. DOI: 10.26914/c.cnkihy.2023.027616.
Lin, Z., Feng, N., & Hu, Z. (2018). The Application Value of BIM Technology in Prefabricated Construction. Journal of Beijing Industrial Vocational and Technical College, 23-27.
Wang, W. (2019). Analysis of the Application Value of BIM Technology in Prefabricated Construction. Heilongjiang Science, 120-121.
Application Research of BIM Technology in a Comprehensive Complex Project Construction. (2020). [Doctoral dissertation, Xi'an University of Technology].
Liu, B. (2020). Exploration of the Application of BIM Technology in Prefabricated Construction Process. Green and Environmental Building Materials, 2.
Zhang, S. (2017). Application of BIM Technology in Prefabricated Building Components. Construction Engineering Technology and Design, 2876-2876.
Zhang, S., Sun, Z., & Sun, X. (2019). The Significance of BIM Technology in Practical Engineering. Chinese and Foreign Entrepreneurs, (17), 141.
Zhanglin, Guo, Gao Si, and Liu Jun-e. Application of BIM technology in prefabricated buildings. IOP Conference Series: Earth and Environmental Science. Vol. 81. No. 1. IOP Publishing, 2017.
Cuellar Lobo, Jose Daniel, et al. Building information modelling-(BIM-) based generative design for drywall installation planning in prefabricated construction. Advances in Civil Engineering 2021 (2021): 1-16.
Wahab, Abdul, and Jun Wang. Factors-driven comparison between BIM-based and traditional 2D quantity takeoff in construction cost estimation. Engineering, Construction and Architectural Management 29.2 (2022): 702-715.
Ling, Zhou. Application and Research on BIM Technology in the Reconnaissance and Design Stage of Engineering.
Sah, Tilak Prasad, et al. Prefabricated Concrete Sandwich and Other Lightweight Wall Panels for Sustainable Building Construction: State-of-the-Art Review. Journal of Building Engineering (2024): 109391.
Rangasamy, Veerakumar, and Jyh-Bin Yang. The convergence of BIM, AI and IoT: Resha** the future of prefabricated construction. Journal of Building Engineering (2024): 108606.
Kamali, Mohammad, and Kasun Hewage. Life cycle performance of modular buildings: A critical review. Renewable and sustainable energy reviews 62 (2016): 1171-1183.
Xu, Hongyu, et al. Interaction mechanism of BIM application barriers in prefabricated construction and driving strategies from stakeholders’ perspectives. Ain Shams Engineering Journal 14.1 (2023): 101821.Darko, Amos, et al. "Building information modeling (BIM)-based modular integrated construction risk management–Critical survey and future needs." Computers in Industry 123 (2020): 103327.
Xu, Gangyan, et al. Cloud asset-enabled integrated IoT platform for lean prefabricated construction. Automation in Construction 93 (2018): 123-134.
Gan, Yupeng, Hang Yin, and **aolei Chen. Application of BIM and RFID technologies in power construction industry. IOP Conference Series: Earth and Environmental Science. Vol. 558. No. 5. IOP Publishing, 2020.
Biswas, Humayun Kabir, Tze Ying Sim, and Sian Lun Lau. Impact of Building Information Modelling and advanced technologies in the AEC industry: A contemporary review and future directions. Journal of Building Engineering (2023): 108165.
Fadeyi, Moshood Olawale. The role of building information modeling (BIM) in delivering the sustainable building value. International Journal of Sustainable Built Environment 6.2 (2017): 711-722.
Tang, Shu, et al. A review of building information modeling (BIM) and the internet of things (IoT) devices integration: Present status and future trends. Automation in Construction 101 (2019): 127-139.
**e, Ming**g, et al. Policies, applications, barriers and future trends of building information modeling technology for building sustainability and informatization in China. Energy Reports 8 (2022): 7107-7126.
Rangasamy, Veerakumar, and Jyh-Bin Yang. The convergence of BIM, AI and IoT: Resha** the future of prefabricated construction. Journal of Building Engineering (2024): 108606.
Biswas, Humayun Kabir, Tze Ying Sim, and Sian Lun Lau. Impact of Building Information Modelling and advanced technologies in the AEC industry: A contemporary review and future directions. Journal of Building Engineering (2023): 108165.
Chen, H., & Yu, H. (2019). Research on the Application of BIM Technology in the Process of Prefabricated Building Engineering. Jushè, 48+52.
Hou, Y., & Liu, X. (2019). A Review of the Application of BIM Technology in Prefabricated Construction. Fujian Quality Management, 126, 88.
Zhang, Jiale, Hanbin Luo, and Jie Xu. Towards fully BIM-enabled building automation and robotics: A perspective of
Zhang, Yunfeng, and Linjia Bai. Rapid structural condition assessment using radio frequency identification (RFID) based wireless strain sensor. Automation in Construction 54 (2015): 1-11.
Tang, Wenjun. Application of BIM technology in the reinforcement and renovation of existing building inspection projects. Alexandria Engineering Journal 82 (2023): 240-247.
Song, K. (2021). Discussion on the Application of BIM Technology in Prefabricated Construction. Sichuan Cement, 2.
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