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Journal of the Korea Concrete Institute

ISO Journal TitleJ Korea Concr Inst.
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  • KCI Accredited Journal

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  3. 2018-12 (Vol. 30 No.6)
  4. 10.4334/JKCI.2018.30.6.649
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1 
Ahmad, A. (2008) Design and construction of the burj dubai concrete building project, Magazine of the Korea Concrete Institute 20(6), 28-35.Google Search
2 
Baek, C., Moon, H. J., Kim, G. D., Han, D. Y., Han, M. C., and Han, C. G. (2016) Performance evaluation before and after pumping based on pumping height of 60 MPa grade high performance concrete in high rise buildings. In Proceedings of the Korea Concrete Institute, Sokcho, 2-4 November 2016. 599-600. (in Korean)Google Search
3 
Choi, M. S., Kim, Y. J., and Kim, J. K. (2014) Prediction of Concrete Pumping Using Various Rheological Models. International Journal of Concrete Structures and Materials 8(4), 269-278.DOI
4 
Choi, M. S., Roussel, N., Kim, Y. J., and Kim, J. K. (2013) Lubrication Layer Properties during Concrete Pumping. Cement and Concrete Research 45, 69-78.DOI
5 
Choi, Y. W., Oh, S. R., Choi, B. K., Choi, W., Kim, Y. J., and Kim Y. J. (2012) A Study on the Rhology Properties of Mortar of Before and After Pressure for Development of High Fluidity Concrete under High Pressure Pumping. In Proceedings of the Korea Concrete Institute, Gyeongju, 2-4 May 2012. 741-742. (in Korean)Google Search
6 
Jacobsen, S., Haugan, L., Hammer, T. A., and Kalogiannidis, E. (2009) Flow Conditions of Fresh Mortar and Concrete in Different Pipes. Cement and Concrete Research 39(11), 997-1006.DOI
7 
Jang, K. P. and Kwon, S. H. (2018) Development of a New Apparatus to Estimate Variation of Workability and Rheological Property of Concrete. In Proceedings of the Korea Concrete Institute, changwon, 2-4 May 2018. 493-494. (in Korean)Google Search
8 
Jang, K. P., and Kwon, S. H. (2015) Evaluation on Pumpability of Concrete Considering Variation of Rheological Property for Before and After Pumping. In Proceedings of the Korea Concrete Institute, Gyeongju, 21-23 October 2015. 353-354. (in Korean)Google Search
9 
Jang, K. P., Kwon, S. H., Choi, M. S., Kim, Y. J., Park, C. K., and Shah, S. P. (2018) Experimental Observation on Variation of Rheological Properties during Concrete Pumping. International Journal of Concrete Structures and Materials, in pressDOI
10 
Jo, S. D., Park, C. K., Jeong, J. H., Lee, S. H., and Kwon, S. H. (2012) A Computational Approach to Estimating a Lubricating Layer in Concrete Pumping. Computers, Materials and Continua 27(3), 189-210.Google Search
11 
Jung, E. B., Lee, T. W., Kim, G. D., Heo, J. U., Han, M. C., and Han, C. G. (2012) Comparison of Properties of the High Performance Concrete with 80 MPa in High Rise Building before and after Pumping. In Proceedings of the Korea Concrete Institute, muju, 7-9 November 2012. 773-774. (in Korean)Google Search
12 
Kaplan, D., Larrard, F., and Sedran, T. (2005) Design of Concrete Pumping Circuit. ACI Materials Journal 102(2), 110-117.Google Search
13 
Kim, J. H., Yim, H. J., and Kwon, S. H. (2014) Quantitative Measurement of the External and Internal Bleeding of Conventional Concrete and SCC. Cement & Concrete Composites 54, 34-39.DOI
14 
Kwon, S. H., Jang, K. P., Kim, J. H., and Shah, S. P. (2016) State of the Art on Prediction of Concrete Pumping. International Journal of Concrete Structures and Materials 10(3), 575-585.DOI
15 
Kwon, S. H., Park, C. K., Jeong, J. H., Jo, S. D., and Lee, S. H. (2013) Prediction of Concrete Pumping: Part I–Development of New Tribometer for Analysis of Lubricating Layer. ACI Material Journal 110(6), 647-656.Google Search
16 
Kwon, S. H., Park, C. K., Jeong, J. H., Jo, S. D., and Lee, S. H. (2013) Prediction of Concrete Pumping: Part II–Analytical Prediction and Experimental Verification. ACI Material Journal 110(6), 657-668.Google Search
17 
Le, H. D., Kadri, E. H., Aggoun, S., Vierendeels, J., Troch, P., and Schutter, G. D. (2015) Effect of Lubrication Layer on Velocity Profile of Concrete in a Pumping Pipe. Materials and Structures 48(12), 3991-4003.DOI
18 
Lee, J. H., Moon, H. J., and Kim, J. J. (2012) An Experimental Study on Pumpability Characteristics of High Strength Concrete Mixed Polymix. Journal of the Korea Concrete Institute 24(5), 509-516. (in Korean)DOI
19 
Lee, J. S., Yoo, Y. S., Han, J. G., Park, C. K., and Kwon, S. H. (2017) Proposal of A Method to Enhance Pumping Efficiency of Cementitious Materials by Injecting Activation Agent to Slip-Layer and its Lab-Scale Experimental Verification. Journal of the Korean Recycled Construction Resources Institute 5(4), 442-449. (in Korean)Google Search
20 
Lee, S. H., Kong, T. W., Lee, H. B., Kang, M. G., Kim, S. H., and Jeon, H. K. (2014) The Evaluation Before and After Pumping Lightweight Concrete According to the Type of Lightweight Aggregate. In Proceedings of the Korea Concrete Institute, Jeju, 14-16 May 2014. 347-348. (in Korean)Google Search
21 
Lee, T. W., Moon, H. J., Kim, Y. H., Kim, G. D., Choi, Y. S., and Heo, J. U. (2013) Evaluation of Concrete Properties at the Stage of Before and After Pumping under Different Binder Contents. In Proceedings of the Korea Concrete Institute, gyeongju, 16-18 October 2013. 59-60. (in Korean)Google Search
22 
Mechtcherine, V., Nerella, V. N., and Kasten, K. (2014) Testing Pumpability of Concrete Using Sliding Pipe Rheometer. Construction and Building Materials 53, 312-323.DOI
23 
Noh, J. M. (2009) Property variation of high fluidity concrete after long distance pumping. Proceedings of the Korea Concrete Institute, yongin, 7 November 2009. 429-430. (in Korean)Google Search