This work is licensed under the Creative Commons Attribution 4.0 International License.
Ismail, Z. A. (2022). Improving failure risk by better planning and safety for precast beam-to-column connection elements using physical internet-enabled building information modeling technology: a Malaysian case study. International Journal of Building Pathology and Adaptation, (ahead-of-print).Search in Google Scholar
Panganti, A. A. (2018). Precast Element's Erection & Installation at Site-A Case Study. International Journal of Engineering Research, 7(special3), 307-311.Search in Google Scholar
Bennion, C. (2017). Part 11: temporary works associated with precast concrete bridge beam construction. Structural Engineer, 95(5), 37-41.Search in Google Scholar
Li, X., Li, Y., Yan, M., Meng, W., Lu, X., & Chen, K., et al. (2021). Cyclic behavior of joints assembled using prefabricated beams and columns with engineered cementitious composite (ecc). Engineering structures(Nov.15), 247.Search in Google Scholar
Asamoah, R. O., Ankrah, J. S., Offei-Nyako, K., & Tutu, E. O. (2016). Cost analysis of precast and cast-in-place concrete construction for selected public buildings in Ghana. Journal of Construction Engineering, 2016.Search in Google Scholar
Wang, D., Liu, G., Li, K., Wang, T., Shrestha, A., Martek, I., & Tao, X. (2018). Layout optimization model for the production planning of precast concrete building components. Sustainability, 10(6), 1807.Search in Google Scholar
Khayam, S. U., Won, J., Shin, J., Park, J., & Park, J. W. (2023). Monitoring Precast Structures During Transportation Using A Portable Sensing System. Automation in Construction, 145, 104639.Search in Google Scholar
Wang, Y., Thangasamy, V. K., Tiong, R. L., & Zhang, L. (2022). Improved Workflow for Precast Element Design Based on BIM and Lean Construction. Journal of Construction Engineering and Management, 148(8), 04022065.Search in Google Scholar
Mosier, R. D. (2018). Standardized tests as a predictor for success in construction management technology standardized tests as a predictor for success in construction management technology. Journal of Engineering Education, 86(2).Search in Google Scholar
Chen, J. H., Yang, L. R., & Tai, H. W. (2016). Process reengineering and improvement for building precast production. Automation in Construction, 68, 249-258.Search in Google Scholar
Shi, X., Rong, X., Nan, L., Wang, L., & Zhang, J. (2022). A New Steel-Joint Precast Concrete Frame Structure: The Design, Key Construction Techniques, and Building Energy Efficiency. Buildings, 12(11), 1974.Search in Google Scholar
Ahmad, S., Soetanto, R., & Goodier, C. (2019). Lean approach in precast concrete component production. Built Environment Project and Asset Management, 9(3), 457-470.Search in Google Scholar
Ashtiani Araghi, Z., & Vosoughifar, H. (2023). Modified BIM Processes Considering Safety–Quality Index for Precast Concrete Construction. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 9(1), 04022062.Search in Google Scholar
Bujnakova, P., Kralovanec, J., Perkowski, Z., & Bouchair, A. (2022). Verification of precast concrete girder bridge under static load. Civil and Environmental Engineering, 18(2), 760-767.Search in Google Scholar
Erdogan, S. A., ?aparauskas, Jonas, & Turskis, Z. (2017). Decision making in construction management: ahp and expert choice approach. Procedia Engineering, 172(Complete), 270-276.Search in Google Scholar
Zhang, Jian-Ping, Hu, Zhen-Zhong, Tian, & Pei-Long, et al. (2016). Construction and facility management of large mep projects using a multi-scale building information model. Advances in Engineering Software.Search in Google Scholar
Matti, Tauriainen, Pasi, Marttinen, Bhargav, & Dave, et al. (2016). The effects of bim and lean construction on design management practices. Procedia Engineering.Search in Google Scholar
