The Role of Prefabricated Materials in Architecture During the Pandemic and Post-Pandemic
Abstract
The purpose of this study is to determine and analyze how big the role of prefabricated materials in increasing construction efficiency in architecture, especially in the post-pandemic era. This research was conducted using qualitative methods because it relates to the views of researchers regarding to the relationship between prefabricated materials and post-pandemic phenomenon. The results obtained from this research are the application of prefabricated material technology that can help the construction process in architecture to be faster in several aspects. The presence of prefabricated materials in architecture, especially post-pandemic, can make the construction process faster in terms of time and installation. The presence of prefabricated materials in architecture, especially post-pandemic, can make the construction process faster in terms of time and installation. Therefore, the use of prefabricated materials is very well applied both during the pandemic and post-pandemic because it can break down the processing time faster so as to minimize the crowd of workers in the field. The final result of this research is to find out how big the role of prefabricated materials in architecture is to make work in the field more efficient and minimize crowds during the pandemic or post-pandemic period. We hope that this research can be useful for the architectural world regarding the advantages of applying prefabricated materials during the pandemic and post-pandemic era.
References
[2] Ferreira Silva, M., Jayasinghe, L. B., Waldmann, D., & Hertweck, F. (2020). Recyclable architecture: Prefabricated and recyclable typologies. Sustainability, 12(4), 1342.
[3] Boafo, F. E., Kim, J. H., & Kim, J. T. (2016). Performance of modular prefabricated architecture: case study-based review and future pathways. Sustainability, 8(6), 558.
[4] Jiang, Y., Zhao, D., Wang, D., & Xing, Y. (2019). Sustainable performance of buildings through modular prefabrication in the construction phase: A comparative study. Sustainability, 11(20), 5658.
[5] Li, M., Li, G., Huang, Y., & Deng, L. (2017). Research on investment risk management of Chinese prefabricated construction projects based on a system dynamics model. Buildings, 7(3), 83.
[6] Shibani, A., Agha, A., Alharasi, T., & Hassan, D. (2021). Prefabrication as a Solution for Tackling the Building Crisis in the UK. Journal of Civil Engineering Research, 11(1), 10-18.
[7] Chen, W., Zhao, Y., Yu, Y., Chen, K., & Arashpour, M. (2020). Collaborative scheduling of on-site and off-site operations in prefabrication. Sustainability, 12(21), 9266.
[8] Tavares, V., Soares, N., Raposo, N., Marques, P., & Freire, F. (2021). Prefabricated versus conventional construction: Comparing life-cycle impacts of alternative structural materials. Journal of Building Engineering, 41, 102705.
[9] Damayanti, S., Afiyanti, Y., & Faridah, I. (2022). Perilaku Dan Pengetahuan Masyarakat Terhadap Penerapan 5m (Memakai Masker, Mencuci Tangan, Menjaga Jarak, Menjauhi Kerumunan, Mengurangi Mobilisasi) Dan Faktor-Faktor Yang Mempengaruhi Penerapan 5m Untuk Mencegah Penularan Virus Covid-19. Nusantara Hasana Journal, 1(8), 64-74.
[10] Smolova, M., & Smolova, D. (2021). Emergency architecture. Modular construction of healthcare facilities as a response to pandemic outbreak. In E3S Web of Conferences, 274, 01013.
[11]. Ni, W. (2021, November). Analysis and Research on prefabricated building technology based on green low carbon environmental protection. In E3S Web of Conferences, 329, 01073.
[12]. Gupta, N., Kamal, M. A., & Brar, T. S. (2021). Exploration of prefabricated building system in housing construction. Journal of Building Materials and Structures, 8(1), 19.
[13]. Chippagiri, R., Gavali, H. R., Ralegaonkar, R. V., Riley, M., Shaw, A., & Bras, A. (2021). Application of sustainable prefabricated wall technology for energy efficient social housing. Sustainability, 13(3), 1195.
[14]. Gupta, N., Kamal, M. A., & Brar, T. S. (2021). Exploration of prefabricated building system in housing construction. Journal of Building Materials and Structures, 8(1), 19.
[15] Soegoto, E. S., Fauzi, S. I., & Valentina, T. (2019, December). Relationship between enterprise architectures planning and information system. In Journal of Physics: Conference Series (Vol. 1402, No. 6, p. 066078). IOP Publishing.
