Acknowledgement
This research is supported by the Korea Agency for Infra-structure Technology Advancement (KAIA) grant funded by the Ministry of Land, Infrastructure and Transport (Grant 22CFRP-C163381-02).
References
- ACI Committee 237 (2007), "Self-Consolidating Concrete."
- ASTM C 1621/ 1621M-09b (2009), "Standard Test Method for Passing Ability of Self-Consolidating Concrete by J-Ring."
- Choi, Y.W., Jung, J.G., Kim, K.H. and An, T.H. (2009), "The Bond Characteristics of Deformed Bars in High Flowing Self-Compacting Concrete", J. Korea Soc. Civil Engr., 29(5), 511-518. https://doi.org/10.12652/Ksce.2009.29.5A.511
- Choi, Y.W., Kim, K.H., Park, S.J. and Jung, J.G. (2010), "H High fluidity concrete", J. Korea Concrete Inst., 22(1), 45-47. https://doi.org/10.4334/JKCI.2015.27.1.045
- Chung, J.S., Shin, H.C. and Kim, J.G. (2016), "A Study on the Properties of Concrete Mixed with Pozzolan Inorganic Polymer(PIP) Waterproof Admixture", J. Korean Soc. Safety, 31(4), 82-89. https://doi.org/10.14346/JKOSOS.2016.31.4.82
- EFNARC (2002), "Specification and Guidelines for Self-Compacting Concrete", UK, 32.
- EFNARC (2005), "The European Guidelines for Self-Compacting Concrete."
- Elyamany, H.E., Abd Elmoaty, M. and Mohamed, B. (2014), "Effect of filler types on physical, mechanical and microstructure of self-compaction concrete and flowable concrete", J. Alexandria Eng., 53(2), 298-307. https://doi.org/10.1016/j.aej.2014.03.010
- Ferraris, C.F., Brower, L.E., Beaupre, D., Chapdelaine, F., Domone, P., Koehler, E., Shen, L., Sonebi, M., Struble, L., Tepke, D., Wallevik, O. and Wallevik, J.E. (2004), "Comparison of Concrete Rheometers: International Tests at MB, May, 2003", NISTIR 7154, National Institute of Standards and Technology.
- Han, C.G., Jiang, Y.R., Oh, S.K. and Bahn, H.Y. (1999), "Development and Property Analysis of Segregation-Reducing Type Flowing Concrete Using the Viscosity Agent", J. Korea Concrete Inst., 11(4), 95-105. https://doi.org/10.22636/JKCI.1999.11.4.95
- Hwan, Y.J., Hwan, C.T., Jo, H.S. and Hoon, K.G. (1996), "An Experimental Study on the Manufacturing and Application of High-Workable Concrete", J. Korea Concrete Inst., 8(2), 109-117.
- Hwang, S.Y., Lee, H.K. and Kang, B.H. (1998), "A Study on the Applicability of High-Workable Concrete in Field", J. Korea Architect. Inst., 14(7), 71-78.
- Hwang, S.D., Khayat, K.H. and Bonneau, O. (2006), "Performance-based specifications of self-consolidating concrete used in structural applications", ACI Mater. J., 103(2), 121-129.
- Jang, H.O. and Jee, N.Y. (2013), "An experimental study on the mixing of normal strength and high fluidity concrete using ground granulated blast furnace slag", J. Korea Architect. Inst., 29(6), 81-88. https://doi.org/10.5659/JAIK_SC.2013.29.6.81
- Jiao, D., Shi, C., Yuan, Q., An, X., Liu, Y. and Li, H. (2017), "Effect of constituents on rheological properties of fresh concrete-A review", J. Cement Concrete Compos., 83, 146-159. https://doi.org/10.1016/j.cemconcomp.2017.07.016
- JSCE (1998), "Recommendation for Construction of Self-Compacting Concrete", Technical Session: Recommendations and Materials. Japan Society of Civil Engineers, pp. 417-437.
- JSCE (1999), "Recommendation for Self-Compacted Concrete", Japan Society of Civil Engineers, Concrete Engineering Series, p. 31.
- Kamakshi, T.A., Reddy, K.C. and Subramaniam, K.V.L. (2022), "Studies on rheology and fresh state behavior of fly ash-slag geopolymer binders with silica", J. Mater., 55(2), p. 65. https://doi.org/10.1617/s11527-022-01908-w
- Khan, M.M.H., Sobuz, M.H.R., Meraz, M.M., Tam, V.W., Hasan, N.M.S. and Shaurdho, N.M.N. (2023), "Effect of various powder contention the properties of sustainable self-compaction concrete", Case Stud. Constr. Mater., 19, e02274. https://doi.org/10.1016/j.cscm.2023.e02274
- Kim, K.Y. and Choi, M.S. (2022), "Horizontal-vertical ratio for concrete pumping pipe", J. Case Stud. Constr. Mater., 16.
- Kim, M.H., Kamada, E. and Han, C.G. (1997), "An Experimental Study on the Manufacturing System and Development of High-Flowing Concrete", J. Korea Architect. Inst., 13(5), 279-288.
- Kim, E.G., Choi, J.J., Jeon, C.G. and Lee, H.S. (2002), "Development Trend and Present Situation of High-Performance Concrete In Japan", J. Korea Concrete Inst., 14(4), 66-71.
- Kim, S.W., Kim, S.W., Ahn, T.S. and Oh, B.H. (2008), "Development and Application of High Performance and Multi-Functional Concrete", J. Korea Concrete Inst., 20(1), 22-26.
- Koehler, E.P., Fowler, D.W., Ferraris, C.F. and Amziane, S. (2006), "A New, Portable Rheometer for Fresh Self-Consolidating Concrete", American Concrete Institute.
- Lee, D.K. and Choi, M.S. (2018), "Standard Reference Materials for Cement Paste, Part I: Suggestion of Constituent Materials Based on Rheological Analysis", J. Mater., 11, 624.
- Lee, D.K. and Choi, M.S. (2020), "Development of reference materials for cement paste", Adv. Concrete Constr., Int. J., 9(6), 547-556. https://doi.org/10.12989/acc.2020.9.6.547
- Lee, J.B., Kim, H.W. and Hak, C. (2006), "A study of the Technology Evaluation on the Modularization of SPC(Steel Plate Concrete) Structure", KSCE J. Civil Eng., 10, 2137-2140.
- Lee, G.C., Cho, B.Y. and Oh, D.U. (2012), "A study on rheological properties and rational fluidity evaluation of cementitious matrices for high strength concrete", J. Korea Architect. Inst., 28(1), 117-124. https://doi.org/10.5659/JAIK_SC.2012.28.1.117
- Lee, D.K., Lee, K.W. and Choi, M.S. (2018a), "Study on the Development of Standard Reference Materials for Safety Control of Construction Materials", J. Korean Soc. Safety, 32(5), 54-61. https://doi.org/10.14346/JKOSOS.2017.32.5.54
- Lee, D.K., Lee, K.W., Park, G.J., Kim, S.W., Park, J.J., Kim, Y.J. and Choi, M.S. (2018b), "Guideline for filling performance of concrete for modular LNG storage tanks", J. Korean Soc. Safety, 33(2), 86-93. https://doi.org/10.14346/JKOSOS.2018.33.2.86
- Lee, K.W., Lee, H.J. and Choi, M.S. (2022), "Evaluation of 3D concrete printing performance from a rheological perspective", Adv. Concrete Constr., Int. J., 8(2), 155-163. https://doi.org/10.12989/acc.2019.8.2.155
- Loukili, A., Ait-Mokhtar, S., Bennacer, S., Boukais, O. and Guessasma, S. (2017), "Effect of Concrete Pumping on Rheological Properties of Fresh Concrete", Materials, 10(4), 409.
- Okamura, H. and Ozawa, K. (1995), "Mix-design for self-compacting concrete", Concrete Library Japan Soc. Civil Engr., pp. 107-120.
- Park, G.J., Park, J.J., Kim, S.W. and Lee, D.G. (2017a), "A Study on the Properties of High-Fluidity Concrete with Low Binders Using Viscosity Agent", J. Korea Academia-Indust. Cooperat. Soc., 18(2), 689-696.
- Park, G.J., Kim, S.W., Park, J.J. and Lee, D.G. (2017b), "Evaluation of Optimum Mix Proportion and Filling Performance of High-fluidity Concrete for SCP Module charging", J. Korea Academia-Indust. Cooperat. Soc., 18(3), 452-459.
- PCI (2004), "PCI Design Handbook: Precast and Pre-stressed Concrete", 6th ed., Precast/Pre-stressed Concrete Institute.
- Rashad, A.M. (2022), "Behavior of steel slag aggregate in mortar and concrete - A comprehensive overview", J. Build. Eng., 53(1), 104536. https://doi.org/10.1016/j.jobe.2022.104536
- RILEM (1999), "Self-Compacting Concrete", RILEM Publications S.A.R.L.
- Song, K.I., Shin, G.S., Gong, M.H. and Song, J.K. (2013), "Basic research of self compacting concrete using alkali-activated slag binder", J. Korea Concrete Inst., 25(6), 657-665. https://doi.org/10.4334/JKCI.2013.25.6.657
- Swedish (2013), "BFS 2013:9: Provningsmetoder for betong - Plastisk konsistens - Spridningsvidd. Stockholm", Swedish Civil Contingencies Agency.
- Zhang, D., Ding, S., Ma, Y. and Yang, Q. (2022), "Preparation and Properties of Foam Concrete Incorporating Fly Ash", J. Mater., 15(18), p. 6287. https://doi.org/10.3390/ma15186287