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Journal of the Korea Concrete Institute

J Korea Inst. Struct. Maint. Insp.
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  • Korea Citation Index (KCI)

References

1 
Barnes, H. A., Hutton, J. F., and Walters, K. (1989), An introduction to rheology, Amsterdam, Netherlands: Elsevier Science.URL
2 
Chateau, X., Ovarlez, G., and Trung, K. L. (2008), Homogenization approach to the behavior of suspensions of noncolloidal particles in yield stress fluids, Journal of Rheology, 52(2), 489-506.DOI
3 
Chen, L., Zhang, Y., Wang, L., Ruan, S., Chen, J., Li, H., and Tsang, D. C. (2022), Biochar-augmented carbon-negative concrete, Chemical Engineering Journal, 431, 133946.DOI
4 
Choi, E. S., Lee, J. W., and Kang, S, T. (2023), Prediction of Rheological Properties of Cement-Based Pastes Considering the Particle Properties of Binders, Journal of the Korea Institute for Structural Maintenance and Inspection, 27(6), 111-119 (in Korean).URL
5 
Choi, H. S., and Choi, H. G. (2019), A study on the coating thickness of surface modified aggregate by using the excess paste theory and rheology value, Journal of the Korea Institute for Structural Maintenance and Inspection, 23(5), 23-29 (in Korean).URL
6 
Choi, J. I., Park, S. E., and Lee, B. Y. (2017), Compressive Strength and Tensile Behavior of Ultra-High Performance Concrete and High-Ductile Cementless Composite, Journal of the Korea Institute for Structural Maintenance and Inspection, 21(3), 69-75 (in Korean).URL
7 
Flatt, R. J., and Bowen, P. (2006), Yodel: a yield stress model for suspensions, Journal of the American Ceramic Society, 89(4), 1244-1256.DOI
8 
Flatt, R. J., and Bowen, P. (2007), Yield stress of multimodal powder suspensions: an extension of the YODEL (Yield Stress mODEL), Journal of the American Ceramic Society, 90(4), 1038-1044.DOI
9 
Ge, X., Goodwin, R. T., Yu, H., Romero, P., Abdelrahman, O., Sudhalkar, A., and Varshney, L. R. (2022), Accelerated Design and Deployment of Low-Carbon Concrete for Data Centers, In ACM SIGCAS/SIGCHI Conference on Computing and Sustainable Societies (COMPASS), 340-352.DOI
10 
Hales, T., Adams, M., Bauer, G., Dang, T. D., Harrison, J., Le Truong, H., and Zumkeller, R. (2017), A formal proof of the Kepler conjecture. In Forum of mathematics, Pi (Vol. 5, p. e2). Cambridge University Press.URL
11 
Krieger, I. M., and Dougherty, T. J. (1959), A mechanism for non‐Newtonian flow in suspensions of rigid spheres, Transactions of the Society of Rheology, 3(1), 137-152.URL
12 
Lee, J. H., Kim, J. H., and Kim, M. K. (2015), Fine aggregates size effect on rheological behavior of mortar, Journal of the Korea Academia-Industrial Cooperation Society, 16(8), 5636-5645 (in Korean).DOI
13 
Maglad, A. M., Amin, M., Zeyad, A. M., Tayeh, B. A., and Agwa, I. S. (2023). Engineering properties of ultra-high strength concrete containing sugarcane bagasse and corn stalk ashes, Journal of Materials Research and Technology, 23, 3196-3218.DOI
14 
Rajagopalan, S. R., Lee, B. Y., and Kang, S. T. (2022), Prediction of the Rheological Properties of Fresh Cementitious Suspensions Considering Microstructural Parameters, Materials, 15(20), 7044.DOI
15 
Revilla-Cuesta, V., Skaf, M., Faleschini, F., Manso, J. M., and Ortega-López, V. (2020), Self-compacting concrete manufactured with recycled concrete aggregate: An overview, Journal of Cleaner Production, 262, 121362.DOI
16 
Soliman, N. A., and Tagnit-Hamou, A. (2016). Development of ultra-high-performance concrete using glass powder–Towards ecofriendly concrete, Construction and Building Materials, 125, 600-612.DOI
17 
Struble, L., and Sun, G. K. (1995), Viscosity of Portland cement paste as a function of concentration, Advanced Cement Based Materials, 2(2), 62-69.DOI
18 
Szecsy, R. S. (1997), Concrete rheology. Ph.D thesis, University of Illinois, Urbana-Champaign, IL.URL
19 
Thiedeitz, M., Dressler, I., Kränkel, T., Gehlen, C., and Lowke, D. (2020), Effect of pre-shear on agglomeration and rheological parameters of cement paste, Materials, 13(9), 2173.DOI
20 
Yim, H. J., Kim, J. H., and Shah, S. P. (2013), Cement particle flocculation and breakage monitoring under Couette flow, Cement and Concrete Research, 53, 36-43.DOI
21 
Yoo, D. Y., and Yoon, Y. S. (2016), A review on structural behavior, design, and application of ultra-high-performance fiber-reinforced concrete, International Journal of Concrete Structures and Materials, 10, 125-142.DOI
22 
Zhao, Y., Yang, G., Zhu, L., Ding, Y., Guan, X., Wu, X., and Yang, Z. (2022), Effects of rheological properties and printing speed on molding accuracy of 3D printing basalt fiber cementitious materials, Journal of Materials Research and Technology, 21, 3462-3475.DOI