JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
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ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
http://journal.auric.kr/jksmi/
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Journal of the Korea Concrete Institute
J Korea Inst. Struct. Maint. Insp.
Indexed by
Korea Citation Index (KCI)
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2023-10
(Vol.27 No.5)
10.11112/jksmi.2023.27.5.9
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REF
References
1
AC509. (2019), 3D Automated Construction Technology for 3D Concrete Walls, ICC Evaluation Service.
2
ASTM Standard C39. (2012), Standard Test Method for Compressive Strength of Cylindrical Concrete Specimens, ASTM Standard International.
3
Feng, P., Meng, X., Chen, J. F., and Ye, L. (2015), Mechanical properties of structures 3D printed with cementitious powders, Construction and Building Materials, 93, 486-497.
4
Lee, H. J., Kim, J. H., Moon, J. H., Kim, W. W., and Seo, E. A. (2019), Correlation between pore characteristics and tensile bond strength of additive manufactured mortar using X-ray computed tomography, Construction & Building Materials, 226, 712-720.
5
Lee, H. J., Kim, J. H. J., Moon, J. H., Kim, W. W., and Seo, E. A. (2020), Experimental analysis on rheological properties for control of concrete extrudability, Advances in Concrete Construction, 9(1), 93-102.
6
Lee, H. J., Seo, E. A., Kim, W. W., Yang, J. M., and Moon, J. H. (2021), X-ray CT analysis of the cross-section of a 3D-printed deformed layer, Materials, 14(24), 7764.
7
Le, T. T., Austin., S. A. Lim, S., Buswell, R. A., Gibb, A. G. F., and Thorpe, T. (2012), Mix design and fresh properties for high-performance printing concrete, Materials and Structures, 45(8), 1221-1232.
8
Murcia, D. H., Geneeby, M., and Taha M. R. (2020), Examining the significance of infill printing pattern on the anisotropy of 3D printed concrete, Construction and Building Materials, 262, 1-14.
9
Shakor, P., Sanjayan, J., Nazari, A., and Nejadi, S. (2017), Modified 3D printed powder to cement-based material and mechanical properties of cement scaffold used in 3D printing, Construction and Building Materials, 138, 398-409.
10
Seo, E. A., Lee, H. J., and Yang, K. H. (2021), Strength Characteristics of 3D Printed Composite Materials According to Lamination Patterns, Journal of the Korea Institute for Structural Maintenance and Inspection, 25(6), 193-198 (in Korean).
11
Seo, E. A., Lee, H. J., and Yang, K. H. (2022), Evaluation of Fluidity Over Time and Mechanical Properties of Cement-based Composite Materials for 3D Printing, Journal of the Korea Institute for Structural Maintenance and Inspection, 26(4), 73-80 (in Korean).
12
Seo, E. A., Kim, W. W., Kim, S. W., Kwon, H. K., and Lee, H. J. (2023), Mechanical properties of 3D printed concrete with coarse aggregates and polypropylene fiber in the air and underwater environment, Construction and Building Materials, 378, 131184.
13
Seo, J. S., Lee, B. C., and Kim, Y. Y. (2019), The Effects of Void Ratio on Extrudability and Buildability of Cement-based Composites Produced by 3D Printers, Journal of the Korea Institute for Structural Maintenance and Inspection, 23(7), 104-112 (in Korean).
14
Won, H. J. (2021), Strength characteristics of 3D printed concrete according to the stacking direction, Journal of the Korea Academia-Industrial Cooperation Society, 22(2), 632-637 (in Korean).
15
KCI-CT115, (2021), Standard Method of Making Compressive Strength Specimens of Underwater Additive Layering Concrete, Standards of the Korean Concrete Society (in Korean).
16
Zhang, Y., Zhang, Y., Liu, G., Yang, Y., Wu, M., and Pang, B. (2018), Fresh properties of a novel 3D printing concrete ink, Construction and Building Materials, 174, 263-271.