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Journal of the Korea Concrete Institute

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

References

1 
Kang, S.-H., Hong, S.-G., Moon, J. (2018), Importance of drying to control internal curing effects on field casting ultra-high performance concrete, Cement and Concrete Research, 108, 20-30.DOI
2 
Lee, N., Jung, Y., Kang, H., Moon, J. (2020), Heat-Induced Acceleration of Pozzolanic Reaction Under Restrained Conditions and Consequent Structural Modification, Materials, 13(13), 2950DOI
3 
Chiocchio, G., Paolini, A. (1985), Optimum time for adding superplasticizer to Portland cement pastes, Cement and Concrete Research, 15(5), 901-908.DOI
4 
(2012), Korea Structural Concrete Design Code 2012, Korea Concrete Institute.Google Search
5 
Ferraro, Gianluca, , Ananda J. Jadhav, , Mostafa Barigou., (2020), A Henry’s law method for generating bulk nanobubbles, Nanoscale 12, 12(29), 15869-15879.DOI
6 
Takahashi, M., Chiba, K., Li, P. (2007), Free-radical generation from collapsing microbubbles in the absence of a dynamic stimulus, The Journal of Physical Chemistry B, 111(6), 1343-1347.DOI
7 
Agarwal, A., Ng, W. J., Liu, Y. (2011), Principle and applications of microbubble and nanobubble technology for water treatment, Chemosphere, 84(9), 1175-1180.DOI
8 
Park, J.-S., Kurata, K. (2009), Application of microbubbles to hydroponics solution promotes lettuce growth, HortTechnology, 19(1), 212-215.DOI
9 
Han, J.-G, Jung, D.-H, Kim, Y.-H, Jeong, S.-H, Hong, K. (2015), Experimental study of compressive strength of Ash-Mortar, Proceedings of Korean Society of Civil Engineers Annual Conference, 83-84.Google Search
10 
Cha, H.-S. (2011), New Technology-Application of Microbubble Technology in Foods, Bulletin of Food Technology, 24(3), 410-414.URL
11 
Song, H.-J., Oh, S.-H., Lim, B.-S., Lee, J.-I., Lee, B.-H., Kim, J.-M. (2013), A study on existence and lifespan of O nano-bubbles in water, Proceedings of the Korean Society of Precision Engineering Conference, 453-454.Google Search
12 
Kim, T.-I (2010), Analysis of Bubble Potential Energy and its Application to Disinfection and Oil Washing, Seoul National University: Seoul.DOI
13 
Kim, H.-J. (2014), A Study on the Development of Sub-micron Bubble Generator and Characterization of Sub-micron Bubble, Seoul National University: Seoul.Google Search
14 
Kim, E. (2018), Substantial enhancement of dissolved gas concentration in the presence of ultrafine bubble, Seoul National University: Seoul.Google Search
15 
Kim, S.-B., Lee, E.-O., Lee, S.-H., Han, M.-Y., Park, H.-J., Kim, T.-I. (2017), Determination of Flocculation Design and Operating Condition of Bubble Generating System for High Rate DAF, Journal of Korean Society of Water Science and Technology, 25(5), 67-75.Google Search
16 
Kim, S., Kim, H., Han, M., Kim, T. (2019), Generation of sub-micron (nano) bubbles and characterization of their fundamental properties, Environmental Engineering Research, 24(3), 382-388.DOI
17 
Materials, A.S.o.T. Standard test method for compressive strength of hydraulic cement mortars, ASTM C-109. 2016, American Society of Testing Materials USAGoogle Search
18 
Kim, T.-I., Han, M.-Y., Kim, H.-R., Kim, Y.-H. (2007), Development of Optimum flocculation process in DAF process, Journal of Korean Society on Water Environment (2005~), 37-44.Google Search
19 
Fan, M., Tao, D., Honaker, R., Luo, Z. (2010), Nanobubble generation and its application in froth flotation (part I): Nanobubble generation and its effects on properties of microbubble and millimeter scale bubble solutions, Mining Science and Technology (China), 20(1), 1-19.DOI
20 
Kim, W.-K., Kim, Y., Hong, G., Kim, J., Han, J., Lee, J. (2021), Effect of Hydrogen Nanobubbles on the Mechanical Strength and Watertightness of Cement Mixtures, Materials, 14(8)DOI
21 
Endo-Takahashi, Yoko, , Yoichi Negishi., (2020), Microbubbles and nanobubbles with ultrasound for systemic gene delivery, Pharmaceutics, 12(10), 964DOI
22 
Asadollahfardi, G., MohsenZadeh, P. , Saghravani, S. F. (2019), The effects of using metakaolin and micro-nanobubble water on concrete properties, Journal of Building Engineering, 25, 100781DOI
23 
Maruyama, T., Takahashi, N., Hashimoto, S. (2015), Effect on the Flow Properties of the Mortar Using Micro-Nano Bubbles, In Advanced Materials Research. Trans Tech Publ., trans tech publDOI
24 
Grzegorczyk-Frańczak, , Hunek, . D.B., rzejuk, W., Zaburko, J., Zalewska, M., Lagod, G. (2021), Physical Properties and Durability of Lime-Cement Mortars Prepared with Water Containing Micro-Nano Bubbles of Various Gases, Materials, 14(8)DOI