JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
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ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
http://journal.auric.kr/jksmi/
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Journal of the Korea Concrete Institute
J Korea Inst. Struct. Maint. Insp.
Indexed by
Korea Citation Index (KCI)
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2019-09
(Vol.23 No.5)
10.11112/jksmi.2019.23.5.68
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REF
1.
Ministry of Land, Infrastructure and Transport. (2019), Road Bridge and Tunnel Status Information System, https://bti.kict.re.kr/bti/
2.
Ohama, Y. (1987), Principle of latex modification and some typical properties of latex-modified mortars and concretes. ACI Materials Journal., 84(6), 511-518.
3.
Meishan, P., Yue, W.U., Kim, K.I., Hyung, W.G., Soh, Y.S. (2004), Effect of the Monomer Ratio on the Properties of Poly(methyl methacrylate butyl acrylate) Latex-Modified Mortars, Journal of Applied Polymer Science., 93, 2403-2409.
4.
Afridi, M.U.K., Ohama, Y., Demura, K., Iqbal, M.Z. (2003), Development of polymer films by the coalescence of polymer particles in powdered and aqueous polymer-modified mortars, Cement and Concrete Research., 33(11), 1715-1721.
5.
Kim, W.K. (2006), Strength and Adhesion Properties of Polymer-Modified Mortars using Redispersible Powders and Polymer Dispersions, Journal of the Architectural Institute of Korea., 22(4), 119-126 [in Korean].
6.
Song, H., Shin, H.U. (2018), High Temperature Properties of Cement Mortar Using EVA, EVCL Redispersible Polymer Powder and Fly Ash, Journal of the Korea Recycled Construction Resources Institute., 6(4), 365-372 [in Korean].
7.
KS L ISO 679. (2016), Methods of Testing Cements-Determination of Strength, Korea [in Korean].
8.
KS F 2762. (2016), Standard Test Method for the Bond Strength of Concrete Repair and Overlay Materials by Pull-Off Method, Korea [in Korean].
9.
KS F 2424. (2015), Standard Test Method for Length Change of Mortar and Concrete, Korea [in Korean].
10.
KS F 2584. (2010), Standard Test Method for Accelerated Carbonation of Concrete, Korea [in Korean].
11.
Shariq, M., Prasad, J., Abbas, H. (2016), Creep and drying shrinkage of concrete containing GGBFS, Cement and Concrete Composites., 68, 35-45.
12.
Kim, D.Y., Cho, H.K., Lee, H.S. (2014), Effects of the Reaction Degree of Ground Granulated Blast Furnace Slag on the Properties of Cement Paste, Journal of the Korea Concrete Institute., 26(6), 723-730 [in Korean].
13.
Sanjuana, M.A., Estevezb, E., Argizc, C., Barriob, D. (2018), Effect of curing time on granulated blast-furnace slag cement mortars carbonation, Cement and Concrete Composites., 90, 257-265.
