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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. 2016-06 (Vol.28 No.3)
  4. 10.4334/JKCI.2016.28.3.317
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1 
1.Jensen, O.M., and Hansen, P.F., “Water-Entrained Cement- Based Materials: I. Principles and Theoretical Background”, Cement and Concrete Research, Vol.31, No.4, 2001, pp. 647-654.DOI
2 
2.Lura, P., Jensen, O.M., and Breugel, K., “Autogrnous Shrinkage in High-Performance Cement Paste: An Evaluation of Basic Mechanism”, Cement and Concrete Research, Vol.33, No. 2, 2003, pp.223-232.DOI
3 
3.Eppers, S., and Müller, C., “Autogenous Shrinkage Strain of Ultra-High-Performance Concrete (UHPC)”, Proceedings of the 2nd International Symposium on UHPC, University of Kassel, Kassel, Germany, 2008, pp.433-441.Google Search
4 
4.Dudziak, L., and Mechtcherine, V., “Mitigation of Volume Changes of Ultra-High Performance Concrete (UHPC) by using Super Absorbent Polymers”, Proceedings of the 2nd International Symposium on UHPC, University of Kassel, Kassel, Germany, 2008, pp.425-432.Google Search
5 
5.Loukili, A., Khelidj, A., and Richard, P., “Hydration Kinetics, Change of Relative Humidity, and Autogenous Shrinkage of Ultra-High-Strength Concrete”, Cement and Concrete Research, Vol.29, No.4, 1999, pp.577-584.DOI
6 
6.Kim, S.W., Choi, S., Lee, K.M., and Park, J.J., “Autogenous Shrinkage Characteristics of Ultra High Performance Concrete”, Journal of the Korea Concrete Institute, Vol.23, No.3, 2011, pp.295-301.DOI
7 
7.Meddah, M.S., Suzuki, M., and Sato, R., “Influence of a Combination of Expansive and Shrinkage-Reducing Admix-ture on Autogenous Deformation and Self-Stress of Silica Fume High-Performance Concrete”, Construction and Building Materials, Vol.25, No.1, 2011, pp.239-250.DOI
8 
8.YOO, D.Y., Park, J.J., Kim, S.W., and Yoon, Y.S., “Evaluating Early Age Shrinkage Behavior of Ultra High Performance Cementitious Composites (UHPCC) with CSA Expansive Admixture and Shrinkage Reducing Agent”, Journal of the Korea Concrete Institute, Vol.23, No.4, 2011, pp.441-448.DOI
9 
9.Bentz, D.P., and Wiess W.J., Internal Curing: A 2010 State- of-the-Art Review, NISTIR 7765, Institute of Standards and Technology, U.S. Department of Commerce, Gaithersburg, 2011, p.82.DOI
10 
10.Jensen, O.M., “Use of Superabsorbent Polymers in Concrete”, Concrete International, Vol.35, No.1, 2013, pp.48-52.Google Search
11 
11.Jensen, O.M., and Hansen, P.F., “Water-Entrained Cement- Based Materials: II. Experimental Observations”, Cement and Concrete Research, Vol.32, No.6, 2002, pp.973-978.DOI
12 
12.Mechtcherine, V., Dudziak, L., Schulze, J., and Stähr, H., “Internal Curing by Super Absorbent Polymers (SAP) - Effects on Material Properties of Self-Compacting Fibre- Reinforced High Performance Concrete”, International RILEM Conference on Volume Changes of Hardening Concrete: Testing and Mitigation, Lyngby, Denmark, 2006, pp.87-96.DOI
13 
13.Snoeck, D., Tittelboom, K., Steuperaert, S., Dubruel, P., and Belie, N., “Self-Healing Cementitious Materials by the Combination of Microfibres and Superabsorbent Polymers”, Journal of Intelligent Material Systems and Structures, Vol.25, No.1, 2014, pp.13-24.DOI
14 
14.Mechtcherine, V., and Reinhardt, H.W., “Application of Super Absorbent Polymers (SAP) in Concrete Construction”, RILEM State-of-the-Art Reports 2, RILEM, Bagneux, 2012, p.164.DOI
15 
15.Mönnig, S., Superabsorbing Additions in Concrete: App-lications, Modelling and Comparison of Different Internal Water Sources, Doctorial Thesis, University of Stuttgart, Stuttgart, 2009, p.164.Google Search
16 
16.Igarashi, S.I., and Watanabe, A., “Experimental Study on Prevention of Autogenous Deformation by Internal Curing using Super-Absorbent Polymer Particles”, International RILEM Conference on Volume Changes of Hardening Concrete: Testing and Mitigation, Lyngby, Denmark, 2006, pp.77-86.DOI
17 
17.Craeye, B., Geirnaert, M., and Schutter, G., “Super Absorbing Polymers as an Internal Curing Agent for Mitigation of Early-Age Cracking of High-Performance Concrete Bridge Decks”, Construction and Build Materials, Vol.25, No.1, 2011, pp.1-13.DOI
18 
18.Hasholt, M.T., Jensen, O.M., Kovler, K., and Zhutovsky, S., “Can Superabsorent Polymers Mitigate Autogenous Shrinkage of Internally Cured Concrete without Compromising the Strength?”, Construction and Building Materials, Vol.31, No.6, 2012, pp.226-230.DOI
19 
19.Laustsen, S., Hasholt, M.T., and Jensen, O.M., “A New Technology for Air-Entrainment of Concrete”, International Conference on Microstructure Related Durability of Cemen-titious Composites, RILEM. Bagneux, 2008, pp.1223-1230.Google Search
20 
20.Zhu, Q., Christopher, W.B., and Kendra, A. Erk. “Effect of Ionic Crosslinking on the Swelling and Mechanical Res-ponse of Model Superabsorbent Polymer Hydrogels for Internally Cured Concrete.” Materials and Structures, Vol. 48, 2014, pp.2261-2276.DOI
21 
21.Hewlett, P.C., Lea's Chemistry of Cement and Concrete: Forth Edition, Elselvier, Oxford, 2010, pp.265-267.Google Search
22 
22.Schröfl, C., Mechtcherine, V., and Gorges, M. “Relation between the Molecular Structure and the Efficiency of Superabsorbent Polymers (SAP) as Concrete Admixture to Mitigate Autogenous Shrinkage”, Cement and Concrete Research, Vol.42, No.6, 2012, pp.865-873.DOI
23 
23.Kang, S.H., and Hong, S.G., “Performance of Fresh and Hardened Ultra High Performance Concrete without Heat Treatment”, Journal of the Korea Concrete Institute, Vol. 26, No.1, 2014, pp.23-34.DOI
24 
24.KS F 2586, Standard Test Method for Autogenous Shrinkage and Expansion of Cement Paste, Mortar and Concrete, Korean Agency for Technology and Standards, Seoul, 2010, p.4.Google Search
25 
25.KS F 2594, Method of test for slump flow of fresh concrete, Korean Agency for Technology and Standards, Seoul, 2009, p.3.Google Search
26 
26.KS F 2405, Standard Test Method for Compressive Strength of Concrete, Korean Agency for Technology and Standards, Seoul, 2010, p.6.Google Search
27 
27.ASTM C1202-12, Standard Test Method for Electrical Indication of Concrete's Ability to Resist Chloride Ion Penetration, ASTM International, West Conshohocken, 2012, p.7.Google Search
28 
28.Pfeifer, D.W., Mcdonald, D.B., and Krauss, P.D., “The Rapid Chloride Permeability Test and Its Correlation to the 90-Day Chloride Ponding Test”, PCI Journal, Chicago, 1994, pp.38-47.Google Search
29 
29.YOO, D.Y., Park, J.J., Kim, S.W., and Yoon, Y.S., “Influence of Reinforcing Bar Type on Autogenous Shrinkage Stress and Bond Behavior of Ultra High Performance Fiber Reinforced Concrete”, Cement and Concrete Composites, Vol.48, 2014, pp.150-161.DOI
30 
30.Association Française de Génie Civil (AFGC), Ultra High Performance Fiber-Reinforced Concretes - Recommendations, Paris, 2013, p.357.Google Search
31 
31.Reinhardt, H.W., Grobe, C.U., and Herb, A.T., “Ultrasonic Monitoring of Setting and Hardening of Cement Mortar - A New Device”, Material and Structures, Vol.33, No.9, 2000, pp.581-583.DOI
32 
32.Habel, K., Viviani, M., Denarié, E., and Brühwiler, E., “Development of the Mechanical Properties of an Ultra- High Performance Fiber Reinforced Concrete (UHPFRC)”, Cement and Concrete Research, Vol.35, No.7, 2006, pp. 1362-1370.DOI
33 
33.Loukili, A., Khelidj, A., and Richard, P., “Hydration Kinetics, Change of Relative Humidity, and Autogenous Shrinkage of Ultra-High-Strength Concrete”. Cement and Concrete Rese-arch, Vol.29, No.4, 1999, pp.577-584.DOI