JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
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ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
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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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2020-12
(Vol.24 No.6)
10.11112/jksmi.2020.24.6.50
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REF
References
1
Shim, H. B., Lee, M. S. (2004), An Experimental Study on Water Resistance of Penetrating Water Repellency of Emulsified Silicon Type Exposed In The Outdoor Environment, Journal of the Korea Concrete Institute, 16(4), 477-484 (in Korean.
2
Song, H. W., Pack, S. W., Ann, K. Y. (2007), Time dependent chloride transport evaluation of concrete structures exposed to marine environment, Journal of the Korea Concrete Institute, 19(5), 585-593.
3
Shim, S. M. (2002), The study on effect silane solution as protection agent of absorption for the durability in concrete surface layer, thesis, seoul national university of science and technology, 66p
4
Jang, S. H., Woo, J. T., Nam, Y. H., Kim, S. S. (2003), Evaluation on Performance of Penetrative Water-repellent for Durability Progress of Concrete Structure, Journal of the Korea Institute for Structural Maintenance and Inspection, 7(1), 289-296.
5
Zhu, H., Li, Q., Ma, R., Yang, L., Hu, Y., Zhang, J. (2020), Water-repellent additive that increases concrete cracking resistance in dry curing environments, Construction and Building Materials, 249(118704)
6
Chari, M. N., Naseroleslami, R., Shekarchi, M. (2019), The impact of calcium stearate on characteristics of concrete, Asian Journal of Civil Engineering, 20(7), 1007-1020.
7
Zhu, Y. G., Kou, S. C., Poon, C. S., Dai, J. G., Li, Q. Y. (2013), Influence of silane-based water repellent on the durability properties of recycled aggregate concrete, Cement and Concrete Composites, 35(1), 32-38.
8
Kim, D. H., Lee, H. N., Hong, S. H., Chun S. M., Jeong. Y. (2018), Effect on properties of mortar according to type and amount of water repellent, Proceedings of Journal of Korea Concrete Institute, 30, 475-476.
9
Maryoto, A. (2017), Resistance of concrete with calcium stearate due to chloride attack tested by accelerated corrosion, Procedia Engineering, 171, 511-516.
10
Kong, X. M., Liu, H., Lu, Z. B., Wang, D. M. (2015), The influence of silanes on hydration and strength development of cementitious systems, Cement and Concrete Research, 67, 168-178.
11
Lanzón, M., Martínez, E., Mestre, M., Madrid, J. A. (2017), Use of zinc stearate to produce highly-hydrophobic adobe materials with extended durability to water and acid-rain, Construction and Building Materials, 139, 114-122.
12
Maryoto, A., Gan, B. S., Hermanto, N. I. S., Setijadi, R. (2018), The Compressive Strength and Resistivity toward Corrosion Attacks by Chloride Ion of Concrete Containing Type I Cement and Calcium Stearate, International Journal of Corrosion
13
Atla, S. B., Huang, Y. H., Yang, J., Chen, H. J., Kuo, Y. H., Hsu, C. M., Lee, W. C., Chen, C. C., Hsu D. W. Chen, C. Y. (2017), Hydrophobic calcium carbonate for cement surface, Crystals, 7(12), 371
14
Maranhao, F. L., John, V. M., Loh, K., Pileggi, R. G., De Clercq, H., Charola, A. E. (), The influence of silicone based water repellents as admixtures on the rheological properties of cement slurry, In Hydrophobe V, 5th International Conference on Water Repellent Treatment of Building Materials, Aedificatio(Brussels), 255-258.
15
Quraishi, M. A., Kumar, V., Abhilash, P. P., Singh, B. N. (2011), Calcium stearate: A green corrosion inhibitor for steel in concrete environment, J. Mater. Environ. Sci, 2(4), 365-372.
16
Naseroleslami, R., Chari, M. N. (2019), The effects of calcium stearate on mechanical and durability aspects of self-consolidating concretes incorporating silica fume/natural zeolite, Construction and Building Materials, 225, 384-400.
17
Zhao, T., Wittmann, F. H., Jiang, R., Li, W. (2011), Application of silane-based compounds for the production of integral water repellent concrete, In HVI, 6th international conference on wr treatment of building materials(), 137-144.
18
Li, W., Wittmann, F. H., Jiang, R., Zhao, T., Wolfseher, R. (2011), Metal soaps for the production of integral water repellent concrete, In Proceedings of Hydrophobe VI, 6th international conference on water repellent treatment of building materials(aedificatio publisher), 145-154.
19
, 浅本晋吾., , 古田悠佳., , 欒堯., , & 米田大樹. (2018), 撥水材を混入したセメント系材料の内部撥水性と材料特性の検討, コンクリート工学論文集, 29, 11-19.
20
Felekoğlu, B. (2012), A method for improving the early strength of pumice concrete blocks by using alkyl alkoxy silane (AAS), Construction and Building Materials, 28(1), 305-310.
