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Journal of the Korea Concrete Institute

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

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  3. 2017-05 (Vol.21 No.3)
  4. 10.11112/jksmi.2017.21.3.138
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1 
(2015), Material Properties of Concrete Produced with Limestone Blended Cement, Journal of the Korea Institute for Structural Maintenance and Inspection, 19(2), 125-132.
2 
(2012), Durability Characteristics of Limestone Powder added Cocnrete for Environment-Friendly Concrete, Journal of the Korea Institute for Structural Maintenance and Inspection, 16(5), 59-67.
3 
(1999), Addition of limestone in the low heat portland cement, Ceram. Silik, 44(4), 146-150.
4 
(2011), Ceramist, 14(2)
5 
(2000), Limestone-filled pozzolanic cement, Cement Concr. Res, 30, 1827-1834.
6 
(2007), Portland-Limestone Cement: State of the Art Report and Gap Analysis for CSA A 3000, Cement Assoc. Canada, 3053, 3-5.
7 
(2011), The effect of limestone powder additions on strength and microstructure of fly ash blended cements, 13th Int. Congr. Chem. Cem, 1-7.
8 
(2009), An Experimental Study on Relation between Chloride Diffusivity and Microstructural Characteristics for GGBS Concrete, Journal of Korea Concrete Institute, 21(5), 639-647.
9 
(2011), Technology development and the future of enhanced compatitiveness in Korean cement industry, Ceramist, 282
10 
(2003), Effect of Particle Size Distribution of Fly Ash-Cement System on the Fluidity of Cement Pastes, Cement Concr. Res, 33, 763-768.
11 
(2015), Hydration Properties of Ordinary Portland Cement Using Mixture of Limestone and Blast Furnace Slag as Minor Inorganic Additives, Journal of Korea Cocnrete Institute, 27(1), 3-9.
12 
(2013), Effects of Limestone Powder on the Fluidity of Ordinary Portland Cement Paste, Journal of the Korean Ceramic Society, 50(2), 149-156.
13 
(2011), A Study on the Resistance to Seawater Attack of Mortars and Concretes IncorporatingLimestone Powder, Journal of the Korea Institute for Structural Maintenance and Inspection, 15(1), 129-137.
14 
(2008), Influence of Limestone on the Hydration of Portland Cements, Cement Concr. Res, 38, 848-860.
15 
(2006), Concrete: Microstructure, Properties and Materials
16 
(2016), Cements with a high limestone content – Mechanical properties, durability and ecological characteristics of the concrete, Constr. Build. Mater, 30, 308-318.
17 
(1997), Fluidity of Cement paste with various types of inorganic powders, Proc. 10th Int’l Cong. Chem. Cement, 2-8.
18 
(1999), Investigations into the influence of limestone additions to Portland cement clinker phases on the early phase of hydration, Modern Concrete Materials: Binders, Additions and Admixtures
19 
(2000), Properties and behavior of limestone cement concrete and mortar, Cement Concr. Res, 30, 1679-1683.
20 
(1999), Durability of the hydrated limestone-silica fume Portland cement mortars under sulphate attack, Cement Concr. Res, 29, 819-826.