JKSMI - Journal of the Korea Institute for Structural Maintenance and Inspection

1

Bernhardt, C. J. (1956), Damage Due to Freezing of Fresh Concrete, Journal of American Concrete Institute, 52(1), 573-580.

2

Corr, D. J., Monteiro, P. J. M., Bastacky, J. (2002), Microscopic Characterization of Ice Morphology in Entrained Air Voids, ACI Materials Journal, 99(2), 190-195.

3

Choi, S. Y., Kim, I. S., Choi, Y. S., Yang, E. I. (2019), A Study on the Applicability of Heavyweight Waste Glass and Steel Slag as Aggregate in Heavyweight Concrete, Journal of the Korea Institute for Structural Maintenance and Inspection (in Korean), 23(2), 107-115.

4

Choi, Y. S., Won, M. S., Yi, S. T., Yang, E. I. (2012), Characteristics of Pore Structure and Chloride Penetration Resistance of Concrete Exposed to Freezing-Thawing, Journal of the Korea Institute for Structural Maintenance and Inspection (in Korean), 16(6), 073-081.

5

George, C. H., Alan, D. B. (1983), Considerations in the Prevention of Damage to Concrete Frozen at Early Ages, Journal of American Concrete Institute, 80(5), 371-376.

6

Han, C. G., Han, M. C. (2000), Determination of the Protecting Periods of Frost Damage at Early Age in Cold Weather Concreting, Journal of the Korea Concrete Institute (in Korean), 12(3), 47-55.

7

KCS 14 20 40, (2018), Standard Concrete Specification, Korea Construction Standards Center (in Korean)

8

Kim, T. K., Choi, S. J., Choi, J. H., Kim, J. H. (2017), Performance Based Evaluation of Concrete Strength and Freeze-Thaw Resistance from Wind Speed - Sunlight Exposure Time Effect, Journal of the Korea Institute for Structural Maintenance and Inspection (in Korean), 21(1), 49-58.

9

Lee, B. D., Kim, H. J., Kang, H. J. (2008), Affecting Analysis of Air Content on the Freeze-Thaw Durability of Concrete, Proceedings Journal of the Korea Concrete Institute (in Korean), 20(1), 565-568.

10

Lee, B. N., Lee, J. S. (2018), Freeze-thaw Resistance Estimation of Concrete using Surface Roughness and Image Analysis, Journal of the Korea Institute for Structural Maintenance and Inspection (in Korean), 22(3), 1-7.

11

Lee, C. Y., Lee, I. D., Kim, K. W., Bae, S. Y. (1998), Resistance of Freeze-Thaw and Strength Development of Recycled Concrete, Journal of the Korea Concrete Institute (in Korean), 10(4), 163-169.

12

Lee, H. K., Lee, B. J., Oh, K. C., Kim, Y. Y. (2015), Reliability Evaluation for Prediction of Concrete Compressive Strength through Impact Resonance Method and Ultra Pulse Velocity Method, Journal of the Korea Institute for Structural Maintenance and Inspection (in Korean), 19(4), 18-24.

13

Lee, H. S., Lim, H. S. (2012), Development of radiation shielding concrete utilizing electronic arc furnace oxidizing slag, Journal of the Architectural Institute of Korea Structure & Construction, 56(8), 53-60.

14

Neville, A. M. (1996), Properties of concrete, Longman, Malaysia, 844

15

Pae, S. W., Yi, S.T., Kim, J. K. (2007), Minimum Curing Time Prediction of Early Age Concrete to Prevent Frost Damage, Journal of Korea Concrete Institute (in Korean), 19(1), 27-37.

16

Pigeon, M., Pleau, R. (1995), Durability of Concrete in Cold Climates, E &FN SPON, 43-115.

17

Powers, T. C. (1962), Prevention of frost damage to green concrete. Skokie, Ill: Portland Cement Association, Research and Development Laboratories

18

Ryu, D. H., Kim, K H., Park, C. G., Son, Y. S. (2009), The Study of Concrete Basic Properties Using Oxidized Electric-furnace-slag Aggregate, Journal of the Architectural Institute of Korea Structure & Construction (in Korean), 25(8), 43-150.

19

Yi, S.T., Pae, S. W., Kim, J. K. (2011), Minimum curing time prediction of early-age concrete to prevent frost damage, Construction and Building Materials, 25(3), 1439-1449.

JKSMIJournal of the Korea Institute for
Structural Maintenance and Inspection

Journal of the Korea Concrete Institute

J Korea Inst. Struct. Maint. Insp.

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JKSMIJournal of the Korea Institute forStructural Maintenance and Inspection