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.2020.24.6.171
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REF
References
1
Kim, I. T., Itoh, Y. (2007), Corrosion Durability Evaluation of Uncoated Structural Steel Using Accelerated Exposure Tests, Korean Society of Steel Construction, 19(1), 79-89.
2
Fan, Y., Liu, W., Li, S., Chowwanonthapunya, T., Wongpat, B., Zhao, Y., Dong, B., Zhang, T., Li, X. (2020), Evolution of rust layers on carbon steel and weathering steel in high humidity and heat marine atmospheric corrosion, 39(0), 190-199.
3
Kim, H. S., Shin, C. H., Dao, D. K., Jeong, Y. S., Kim, I. T. (2018), Evaluation on Residual Compressive Strength of Welded Circular Tubular Members with Locally Corroded Ends, Korean Society of Steel Construction, 30(3), 145-152.
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Park, J.-M., Lee, S.-H., Woo, S.-K., Chu, I.-Y., Lee, M.-H. (2018), Variation of Corrosion Properties on the Steel Surface by Environmental Changes in Shihwa Lake, The Korean Institute of Surface Engineering, 18(5), 316-324.
5
Lee, M. J., Ahn, J.-H., Kim, I. T. (2014), Shear Buckling Strength and Behaviors of Steel Plate Girder with Asymmetrical Shear Resistant Web Panel by Local Corrosion, Korean Society of Steel Construction, 26(2), 105-118.
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Lee, D.-K., Shin, K.-J. (2017), Durability Design Chart for Concrete Exposed to Chloride Environment According to KCI Concrete Standard Specification, Korea Concrete Institute, 29(6), 649-656.
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Lee, T. H., Yang, D. H., Kim, T. K., Choi, S. J., Kim, J. H. J. (2020), Experimental Evaluation of Recycled Aggregate Concrete for Freeze-thaw and Carbonation Resistance Considering Various Curing Conditions from Climate Change, Korea Concrete Institute, 32(1), 3-10.
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Shin-ichi, M., Yonosuke, S., Tadashi, S., Yoichi, K., Shigeo, T., Wataru, O., Shosuke, I., Toshiro, F. (1994), ACM (Atmospheric Corrosion Monitor) Type Corrosion Sensor to Evaluate Corrosivity of Marine Atmosphere, Japan Society of Corrosion Engineering, 43(10), 550-556.
9
Kainuma, S., Yamamoto, Y., Oshikawa, W. (2011), Prediction Method for Mean Corrosion Depth of Uncoated Carbon Steel Plate Subjected to Rainfall Effect using Fe/Ag Galvanic Couple ACM-Type Corrosion Sensor, Japan Society of Corrosion Engineering, 60, 498-503.
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Pei, Z., Cheng, X., Yang, X., Li, Q., Xia, C., Zhang, D., Li, X.Understanding Environmental Impacts on Initial Atmospheric Corrosion based on Corrosion Monitoring Sensors, (In Press, Corrected Proof)
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Jeon, S. H., Ha, M.-G., Jeong, Y. S., Ahn, J.-H. (2019), Evaluation of Corrosion Damage of Structural Steel depending on Atmospheric Exposure Test, Korean Society of Steel Construction, 31(4), 245-252.
12
Ahn, J.-H., Jeon, S. H., Seong, T.-R., Jeong, Y. S. (2019), Estimation of Corrosion Damage Rate using Corrosion Current depending on Atmospheric Corrosion Environment, Korean Society of Steel Construction, 31(4), 253-260.
13
Ha, M.-G., Jeong, Y. S., Lee Park, S. H., Ahn, J.-H. (2019), Evaluation of Relative Corrosion Rate depending on Local Location and Installation of Structural Member in Steel Water Gate, Korea Institute for Structural Maintenance Inspection, 23(7), 16-24.
14
Ha, M.-G., Jeon, S. H., Jeong, Y.-S., Mha, H.-S., Ahn, J.-H. (2020), Corrosion Environment Monitoring of Local Structural Members of a Steel Truss Bridge under a Marine Environment, Korean Society of Steel Construction, (In press)
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Jin, Y.-H., Ha, M.-G., Jeon, S. H., Jeong, Y. S., Ahn, J.-H. (2020), Evaluation of Corrosion Conditions for the Steel Box Members by Corrosion Monitoring Exposure Test, 258, 120195
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Tadashi, S., Shin-ini, M., Wataru, O. (2005), Evaluation of Corrosivity of Atmosphere by ACM Type Corrosion Sensor, Japan Society of Corrosion Engineering, 54(8), 375-382.
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Tadashi, S. (2014), Present State and Visions of Evaluation Methods for Atmospheric Corrosion, Japan Society of Corrosion Engineering, 63(4), 116-120.
18
Ahn, J.-H., Jeong, Y.-S., Kim, I.-T., Jeon, S.-H., Park, C.-H. (2019), A Method for Estimating Time-Dependent Corrosion Depth of Carbon and Weathering Steel using an Atmospheric Corrosion Monitor Sensor, 19(6)
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Daisuke, M., Sachiko, S., Sakae, F., Nobuyoshi, H. (2014), Corrosion Monitoring and Materials Selection for Automotive Environments by using Atmospheric Corrosion Monitor (ACM) Sensor, 83, 217-225.
20
KS D ISO 8044., (2015), Corrosion of metals and alloys – Basic terms and definitions
21
KS D ISO 9223., (2015), Corrosion of metals and alloys – Corrosivity of atmospheres – Classification
22
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