참고문헌 (33)

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2. Bock, T., The future of construction automation: Technological disruption and the upcoming ubiquity of robotics, Automation, Construction, 2015, Vol. 59, pp. 113-121. 

3. Buchli, J., Giftthaler, M., Kumar, N., Lussi, M., Sandy, T., Dorfler, K., and Hack, N., Digital in situ fabrication - challenges and opportunities for robotic in situ fabrication in architecture, construction, and beyond, Cement and Concrete Research, 2018, Vol. 112, pp. 66-75. 

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4. Buswell, R.A., Leal de Silva, W.R., Jones, S.Z., and Dirrenberger, J., 3D printing using concrete extrusion: A roadmap for research, construction, and beyond, Cement and Concrete Research, 2018, Vol. 112, pp. 37-49. 

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8. Garcia de Soto, B., Agusti-Juan, I., Hunhevicz, J., Joss, S., Graser, K., Habert, G., and Adey, B.T., Productivity of digital fabrication in construction: Cost and time analysis of a robotically built wall, Automation, Construction, 2018, Vol. 92, pp. 297-311. 

9. Hamidi, F. and Aslani, F., Additive manufacturing of cementitious composites: Materials, methods, potentials, and challenges, Construction and Building Materials, 2019, Vol. 218, pp. 582-609. 

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10. Hwang, J.P., Lee, H.J., and Kwon, H.K., Investigation for Developing 3D Concrete Priting Apparatus for Underwater Application, Journal of the Society of Korea Industrial and Systems Engineering, 2021, Vol. 44, No. 3, pp. 10-21. 

11. Ji, G., Ding, T., Xiao, J., Du, S., Li, J., and Duan, Z., A 3D printed ready-mixed concrete power distribution substation: Materials and construction technology, Materials, 2019, Vol. 12, No. 9, pp. 1-14. 

12. Jiao, D., Shi, C., Yuan, Q., An, X., Liu, Y., and Li, H., Effect of constituents on rheological properties of fresh concrete: A review, Cement and Concrete Composites, 2017, Vol. 83, pp. 146-159. 

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13. Khoshnevis, B., Automated Construction by Contour Crafting-Related Robotics and Information Technologies, Automation in Construction, 2004, Vol. 13, No. 1, pp. 5-19. 

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14. Kwon, H.K., Experimentation and analysis of Contour Crafting (CC) process using ceramic materials [dissertation], [LA, USA]:University of Southern Californian, 2002. 

15. Le, T.T., Austin, S.A., Lim, S., Buswell, R.A., Law, R., Gibb, A.G.F., and Thorpe, T., Hardened properties of high-performance printing concrete, Cement and Concrete Research, 2012, Vol. 42, No. 3, pp. 558-566. 

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16. Lee, H.J., Kim, J.H., Moon, J.H., Kim, W.W., and Seo, E.A., Evaluation of the Mechanical Properties of a 3D-Printed Mortar, Materials, 2019, Vol. 12, No. 24, pp. 1-13. 

17. Lee, H.J., Kim, K.H., Yoo, B.H., Kim, W.W., and Moon, J.H., Shrinkage Characteristic of Cementitious Composite Materials for Additive Manufacturing, Journal of the Korea Institute for Structural Maintenance and Inspection, 2019, Vol. 23, No. 6, pp. 99-104. 

18. Lee, H.J., Kim, W.W., and Moon, J.H., 3D Study on Rheological Properties of Mortar for the Application of 3D Printing Method, Journal of the Korean Recycled Construction Resources, 2018, Vol. 6, No. 1, pp. 16-24 

19. Li, X., Zhang, N., Yuan, J., Wang, X., Zhang, Y., Chen, F., and Zhang, Y., Preparation and microstructural characterization of a novel 3D printable building material composed of copper tailings and iron tailings, Construction and Building Materials, 2020, Vol. 249, pp. 1-11. 

20. Lim, J.H., Weng, Y., and Pham, Q.C., 3D printing of curved concrete surfaces using Adaptable Membrane Formwork, Construction and Building Materials, 2020, Vol. 232, pp. 1-10 

21. Lim, S., Buswell, R.A., Le, T.T., Austin, S.A., Gibb, A.G.F., and Thorpe, T., Developments in constructionscale additive manufacturing processes, Automation in Construction, 2012, Vol. 21, pp. 262-268. 

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22. Liu, D.Y., Tu, Y.M., Sas, G., and Elfgren, L., Freeze-thaw damage evaluation and model creation for concrete exposed to freeze-thaw cycles at early-age, Cement and Concrete Research, 2021, Vol. 312, pp. 1-13. 

23. Ma, G., Li, Z., and Wang, L., Printable properties of cementitious material containing copper tailings for extrusion based 3D printing, Construction and Building Materials, 2018, Vol. 162, pp. 613-627. 

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24. Ma, G.W., Wang, L., and Ju, Y., State-of-the-art of 3D printing technology of cementitious material: An emerging technique for construction, Science China Technological Sciences, 2018, Vol. 61, No. 4, pp. 475-495. 

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25. Mechtcherine, V., Nerella, V.N., and Kasten, K., Testing pumpability of concrete using sliding pipe rheometer, Construction and Building Materials, 2014, Vol. 53, pp. 312-323. 

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26. Mechtcherine, V., Nerella, V.N., Will, F., Nather, M., Otto, J., and Krause, M., Large-scale digital concrete construction - CONPrint3D concept for on-site, monolithic 3D-printing, Automation in Construction, 2019, Vol. 107, pp. 1-16. 

27. Paul, S.C., van Zijl, G., Tan, M.J., and Gibson, I., A review of 3D concrete printing systems and materials properties: current status and future research prospects, Rapid Prototyping Journal, 2018, Vol. 24, No. 4, pp. 784-798. 

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28. Rahul, A.V. and Santhanam, M., Evaluating the printability of concretes containing lightweight coarse aggregates, Cement and Concrete Composites, 2020, Vol. 109, pp. 1-11. 

29. Roussel, N., Rheological requirements for printable concretes, Cement and Concrete Research, 2018, Vol. 112, pp. 76-85. 

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30. Tay, Y.W.D., Qian, Y., and Tan, M.J., Printability region for 3D concrete printing using slump and slump flow test, Composites Part B: Engineering, 2019, Vol. 174, pp 1-9. 

31. Teicholz, P., Labor-productivity declines in the construction industry: Causes and remedies (Another Look), AECBytes. http://www.aecbytes.com/viewpoint/2013/issue_67.html, Accessed date: 14 July 2022. 

32. Wangler, T., Roussel, N., Bos, F.P., Salet, T.A.M., and Flatt, R.J., Digital concrete: A review, Cement and Concrete Research, 2019, Vol. 123, pp. 1-17. 

33. Woo, S.J., Yang, J.M. Lee, H.J., Kwon, H.K., and Seo, E.A., Comparison of Properties of 3D-Printed Mortar in Air vs. Underwater, Materials, 2021, Vol. 14, No. 19, pp. 1-19. 

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