JKCI
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the Korea Concrete Institute
KCI
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ISSN : 1229-5515 (Print)
ISSN : 2234-2842 (Online)
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Journal of the Korea Concrete Institute
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J Korea Concr Inst.
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2023-04
(Vol.35 No.2)
10.4334/JKCI.2023.35.2.137
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REF
References
1
ACI Committee 209 (2008) Prediction of Creep, Shrinkage, and Temperature Effects in Concrete Structures (ACI 209R-08). Farmington Hills, Michigan, USA; American Concrete Institute (ACI). 17.
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ASTM C 330 (2017) Standard Specification for Lightweight Aggregates for Structural Concrete. West Conshohocken, PA; ASTM International.
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ASTM C469/C469M-14 (2014) Standard Test Method for Static Modulus of Elasticity and Poisson’s Ratio of Concrete in Compression. West Conshohocken. PA; ASTM International.
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Choi, S. J., Kim, D. B., Lee, K. S., and Kim, Y. U. (2019) The Study on the Physical and Strength Properties of Lightweight Concrete by Replacement Ratio of Artificial Lightweight Aggregate. The Korea Institute of Building Construction 19 (4), 313-322. (In Korean)
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7
Ji, G. B., Mun, J. H., and Yang, K. H. (2019) Evaluation of Mechanical Properties of Lightweight Concrete Using Bottom Ash Aggregates and Foam. Journal of the Korea Concrete Institute 31(4), 375-384. (In Korean)
8
Kang, S. H., Kim, H. S., Woo, K. J., Kang, J. K., Kim, D. W., and Lee, S. J. (2014) Empirical Study on the Energy Saving and Sludge Reduction in a Public Sewage Treatment Plant. Journal of Energy & Climate Change 9(2), 3-10. (In Korean)
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KATS (2018) Concrete Aggregate (KS F 2527). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)
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KCI (2021) Concrete Design Code and Commentary. Seoul, Korea; Kimoondang Publishing Company. Korea Concrete Institute (KCI). (In Korean)
11
Kim, J. H., Sung, J. H., Lee, S. Y., Kwon, G. H., and Lee, S. H. (2017) An Experimental Study on the Physical and Mechanical Properties of Concrete Using Recycled Sand. Korean Recycled Construction Resources Institute 5(4), 359-365. (In Korean)
12
Kim, J. W., Yang, K. H., and Mun, J. H. (2021) Evaluation on Mechanical Properties and Thermal Resistance of Lightweight Concrete Using Bottom Ash Aggregates and Expanded Polystyrene Bead. Journal of the Korea Concrete Institute 33(6), 569-577. (In Korean)
13
Kim, Y. S., and Kim, W. B. (2013) Geo-Technical Characterization of Artificial Aggregate Made from Recycled Resources of Gwangyang Bay Area as a Drainage. Journal of the Korean Geo-Environmental Society 14(10), 49-57. (In Korean)
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Lee, D. W. (2012) An Study on Mechanical Properties of Porous Concrete Using EAF Slag as Fine Aggregate. Journal of the Korea Institute of Building Construction 14(4), 229-236. (In Korean)
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Lee, J. I., Bae, S. H., Kim, J. H., and Choi, S. J. (2022) An Experimental Study on the Engineering Characteristics of Ternary Lightweight Aggregate Mortar Using Recycling Water. Korea Recycled Construction Resources Institute 10(1), 48-55. (In Korean)
16
Lee, K. H., and Yang, K. H. (2018) Proposal for Compressive Strength Development Model of Lightweight Aggregate Concrete Using Expanded Bottom Ash and Dredged Soil Granules. Journal of the Korea Institute of Building Construction 34(7), 19-26. (In Korean)
17
Saul, A. G. A. (1951) Principles Underlying the Steam Curing of Concrete at Atmospheric Pressure. Magazine of Concrete Research 2(6), 127-140.
