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http://dx.doi.org/10.6106/KJCEM.2022.23.1.113

Architectural Product and Formwork Manufacture using 3D Printing - Applicability Verification Through Manufacturing Factor Prediction and Experimentation -  

Park, Jinsu (Korean institute of industrial technology)
Kim, kyung taek (Korean institute of industrial technology)
Publication Information
Korean Journal of Construction Engineering and Management / v.23, no.1, 2022 , pp. 113-117 More about this Journal
Abstract
Additive manufacturing (AM, also known as 3D printing) technology is digitalized technology, making it easy to predict and manage quality and also, have design freedom ability. With these advantages, AM technology is applied to various industries. In particular, a method of manufacturing buildings and infrastructure with AM technology is being proposed to the construction industry. However, the application of AM technology is restricted due to problems such as insufficient history and quality of technology, lack of construction management methods, and certification of manufacturing products. Therefore, the manufacture of architectural products is implemented with indirect AM technology. In particular, it manufactures formwork using AM and injecting building materials to implement the architectural product. In this study, hybrid type material extrusion AM is used to manufacture large-sized formwork and implement building products. Moreover, we identify factors that can predict productivity and economic feasibility in the additive manufacturing process. As a result, design optimization results are proposed to reduce the production cost and time of architecture buildings.
Keywords
Additive Manufacturing Technology; 3D Printing; Atypical Formwork; Porous Architecture;
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
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1 Choi, H., and Park, J. (2020). "Technology Trend of Additive Manufacturing Standardization." Journal of Korean Powder Metallurgy Institute 27(5), pp. 420-428.   DOI
2 Jeong, J.H., Hyun, J.H., Jeong, H.S., Go, H.J., Lee, J.H., and Ahn, J.S. (2021). "Permanent Formwork of PLA Filament utilizing 3D Printing Technology." Korean Journal of Construction Engineering and Management, KICEM, 22(1), pp. 81-89.   DOI
3 Roschli, A., Gaul, K.T., Boulger, A.M., Post, B.K., Chesser, P.C., Love, L.J., Blue, F., and Borish, M. (2019). "Designing for Big Area Additive Manufacturing." Additive Manufacturing, 25, pp. 275-285.   DOI
4 Ghaffar, S.H., Corker, J., and Fan, M. (2018). "Additive manufacturing technology and its implementation in construction as an eco-innovative solution." Automation in Construction 93(March), pp. 1-11.   DOI
5 Wi, K., Suresh, V., Wang, K., Li, B., and Qin, H. (2020). "Quantifying quality of 3D printed clay objects using a 3D structured light scanning system." Additive Manufacturing 32(December 2019), p. 100987.   DOI
6 Tay, Y.W.D., Panda, B., Paul, S.C., Noor, Mohamed N.A., Tan, M.J., and Leong, K.F. (2017). "3D printing trends in building and construction industry: a review." Virtual and Physical Prototyping, 12(3), pp. 261-276.   DOI
7 Lee, Y.S., and Lee, T.S. (2020). "Exploring Business Opportunities for Building Social Overhad Infrastructure by Achieving Sustainable Development Goals." Korean Journal of Construction Engineering and Management, KICEM, 21(4), pp. 72-81.   DOI
8 Kim J,, Phi, S.W,, and Seo, J.W. (2013). "Machine Vision based Quality Management System for Tele-operated Concrete Surface Grinding Machine." Journal of The Korean Society of Civil Engineers 33(4), pp. 1683-1691.   DOI
9 Park, J,, Kim, K., and Choi, H. (2019). "Echnology Trend of Construction Additive Manufacturing." Journal of Korean Powder Metallurgy Institute, 26(6), pp. 528-538.   DOI
10 Buswell, R.A., Leal, de Silva W.R., Jones, S.Z., and Dirrenberger, J. (2018). "3D printing using concrete extrusion: A roadmap for research." Cement and Concrete Research 112, pp. 37-49.   DOI