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Title |
Modeling on Chloride Diffusivity in Concrete with Isotropic and Anisotropic Crack
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Keywords |
균열 ; 염화물 확산계수 ; 쐐기형 균열 ; 등방성 ; 균열조도 Crack ; Chloride diffusion coefficient ; Wedge shape crack ; Crack torturity |
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Abstract |
Deterioration is accelerated due to additional intrusion of chloride ion in crack width in cracked concrete. In this paper, modeling on equivalent diffusion coefficient in cracked concrete is performed for 1-D (Anisotropic) and 2-D (Isotropic) diffusion based on steady state condition. In the previous research, rectangular shape of crack was considered but the shape was modified to wedge shape with torturity. For verification of the proposed model, crack is induced in concrete sample and migration test in steady state is performed for 1-D diffusion. For 2-D diffusion, previous test results are adopted for verification. Through considering wedge shape of crack with torturity, diffusion coefficients in 1-D and 2-D diffusion are reduced, and the more reasonable prediction is obtained. The results from the proposed model with torturity of 0.10~0.15 are shown to be in the best agreement with the test results.
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