JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
Contact
Open Access
Bi-monthly
ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
http://journal.auric.kr/jksmi/
Mobile QR Code
Journal of the Korea Concrete Institute
J Korea Inst. Struct. Maint. Insp.
Indexed by
Korea Citation Index (KCI)
Main Menu
Main Menu
About Journal
Aims and Scope
Subscription Inquiry
Editorial Board
For Contributors
Instructions For Authors
Ethical Guideline
Crossmark Policy
Submission & Review
Archives
Current Issue
All Issues
Journal Search
Home
All Issues
2019-07
(Vol.23 No.4)
10.11112/jksmi.2019.23.4.113
Journal XML
XML
PDF
INFO
REF
1.
Kim, J. M., Park, H. I. (2012), Evaluation on Volume Stability of the Electric Arc Furnace Oxidizing Slag Aggregate by Hydro Thermal Condition, Journal of Material Cycles and Waste Management, 29, 551-560.
2.
Tam, V. W. Y., Gao, X. F., Tam, C. M. (2005), Microstructural analysis of recycled aggregate concrete produced from two-stage mixing approach, Cement and Concrete Research, 35 1195-1203.
3.
Kwon, S.J., Lim, H.S., and Lee, H.S. (2018), Quantitative evaluation of Free CaO in electric arc furnace reduction slag using the ethylene glycol method, Journal of Korea Institute of Building Construction, 18(4), 321-327.
4.
Song, H. W., Kwon, S. J., Lee, S. W., Byun, K. J. (2003), A study on resistance of chloride ion penetration in ground granulated blast-furnace slag concrete. Journal of the Korea Concrete Institute, 15(3), 400-408.
5.
Song, H. W., Kwon, S. J. (2009), Evaluation of chloride penetration in high performance concrete using neural network algorithm and micro pore structure. Cement and Concrete Research, 39, 814-824.
6.
Kwon, S. J., Park, S. G. (2013), Analysis technique for chloride penetration in high performance concrete behavior considering time-dependent accelerated chloride diffusivity, Journal of the Korea Concrete Institute, 25(2), 145-153.
7.
Oh, K. S., Mun, J. M., Kwon, S. J. (2016), Chloride diffusion coefficients in cold joint concrete with GGBFS, Journal of the Korea Institute for Structural Maintenance and Inspection, 20(5), 44-49.
8.
Faraone, N., Tonello, G., Maschio, S. (2009), Steelmaking Slag as Aggregate for Mortars: Effects of Particle Dimension on Compression Strength, Chemophere, 77, 1152-1156.
9.
Lim, H. S., Lee, H. S. (2011), Experimental Study on the Development of X-ray Shielding Concrete Utilizing Electronic Arc Furnace Oxidizing Slag, Architectural Institute of Korea, 27, 125-132.
10.
Cho, B. S., Lee, H. H., Yang, S. K., Lee, W. J., Um, T. S. (2009), Appraisal of Concrete Performance and Plan for Stable Use of EAF Oxidizing Slag as Fine Aggregate of Concrete, Journal of the Korea Concrete Institute, 21, 367-375.
11.
Lee, S. H., Lim, D. S., Lee, S. H., Lee, J. H. (2013), Mechanism of Strength Development in Ultra High Strength Concrete Using the Electric Arc Furnace Oxidizing Slag as Fine Aggregate, Journal of the Korea Concrete Institute, 25(1), 3-9.
12.
Roslan, N. H., Ismail, M., Abdul-Majid, Z., Ghoreishiamiri, S., Muhammad, B. (2016), Performance of steel slag and steel sludge in concrete. Construction and Building Materials, 104, 16-24.
13.
Sheen, Y.D., Le, D. H., Sun, T.H. (2015), Innovative Usages of Stainless Steel Slags in Developing Self-compacting Concrete, Construction and Building Materials, 101, 268-276.
14.
Lim, H. S., Lee, H. S. (2017), Study on performance evaluation of concrete using electric arc furnace oxidizing slag aggregate, Korea Institute for Structural Maintenance and Inspection, 21(4), 97-103.
15.
Chun, J. H., Ryu, H. S., Yoon, Y. S., Kwon, S. J. (2017), Crack and time effect on chloride diffusion coefficient in nuclear power plant concrete with 1 year curing period, Journal of the Korea Institute for Structural Maintenance and Inspection, 21(6), 83-90.
16.
Yoo, J. G. (2010), Durability Design of Concrete and Evaluation of Field Application on Reinforced Concrete Structure Exposed to Marine Environment, Ph.D. dissertation, Daejeon, Chungnam University, Department of Architectural Engineering.
17.
Tang, L., Nilsson, L.O. (1992), Rapid Determination of the Chloride Diffusivity in Concrete by Applying an Electrical Field, ACI Materials Journal, 89(1), 49-53.
18.
Tang, L. (1996), Electrically Accelerated Methods for Determining Chloride Diffusivity in Concrete-Current Development, Magazine of Concrete Research, 48(176), 173-179.
19.
NT BUILD 492. (1999), Chloride Migration Coefficient from Non-Steady-State Migration Experiments, Denmark, Slettetoften: NORDTEST. 1-11.
20.
Song, H. W., Kwon, S. J., Byun, K. J., Park, C. K. (2005), A Study on Analytical Technique of Chloride Diffusion Considering Characteristics of Mixture Design for High Performance Concrete using Mineral Admixture, Journal of the Korean Society of Civil Engineers, 25(1A), 213-223.
21.
Yoon, Y. S., Kwon, S. J. (2018), Evaluation of time-dependent chloride resistance in HPC containing fly ash cured for 1 year, Journal of the Korea Institute for Structural Maintenance and Inspection, 22(4), 52-59.
22.
Lee, S. S., Won, C., Kim, DS., Park, S. J. (2000), A study on the engineering properties of concrete using blast-furnace slag powder, Journal of the Korea Concrete Institute, 12(4), 49-58.
23.
Lee, M. H., Lee, S. H., Shim, J. W. (2005), A study on the properties of recycled concrete using recycled fine aggregates with different removal formulas of powder in aggregate, Journal of the Korea Concrete Institute, 17(1), 95-104.
