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Journal of the Korea Concrete Institute

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

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  3. 2019-07 (Vol.23 No.4)
  4. 10.11112/jksmi.2019.23.4.86
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1. 
Boulfiza, M., Banthia, N., Sakai, K. (2000), Application of Continuum Damage Mechanics to Carbon Fiber-Reinforced Cement Composites, ACI Materials Journal, 98(3), 245-253.Google Search
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3. 
Choi, J.I., Koh, K.T., Lee, B.Y. (2015), Tensile Behavior of Ultra-High Performance According to Combination of Fibers, Journal of the Korea Institute for Structural of Maintenance and Inspection, 19(4), 49-56.DOI
4. 
Chung, D.D.L. (2005), Dispersion of Shot Fibers in Cement, Journal of Materials in Civil Engineering, ASCE, 17(4), 379-383.DOI
5. 
Heo, G.H., Park, J.G., Kim, C.G., Lee, H.J., Choi, W.S. (2019), Impact Fracture Behavior under Temperature Variation and Compressive⋅Flexural Strength of Cement Composites using VAE Powder Polymer and PVA Fiber, Journal of the Korea Institute for Structural of Maintenance and Inspection, 23(1), 102-112.Google Search
6. 
Korea Agency for Technology and Standard (KATS) (2007), Testing Method for Compressive Strength of Hydraulic Cement Mortar(KS L 5105), Korea Standards Association, KSA, 6(In Korea)Google Search
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Korea Agency for Technology and Standard (KATS) (2017), Flow Table for use in Tests of Hydraulic Cement(KS L 5111), Korea Standards Association, KSA, 6(In Korea)Google Search
8. 
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10. 
Korea Agency for Technology and Standard (KATS) (2014), Standard Test Method for Density and Absorption of Fine Aggregate(KS F 2504), Korea Standards Association, KSA, 8(In Korea)Google Search
11. 
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12. 
Li, V.C., Wang, S., Wu, C. (2001), Tensile Strain-Harding Behavior of Polyvinyl Alcohol Engineered Cementitious Composite(PVC-ECC), ACI Materials Journal, 98(6), 483-492.DOI
13. 
Lu, M., Xiao, H., Liu, M., Li, H., Sun, L. (2018), Improved Interfacial Strength of SiO2 Coated Carbon Fiber in Cement Matrix, Cement and Concrete Composites, 91, 21-28.DOI
14. 
Min, K.H., Lee, J.Y., Kim, M.H., Yoon, Y.S. (2011), Behavior of Concrete Segmented Composites using Polymer Mortar under Static and Impact Loadings, Journal of the Korea Institute for Structural of Maintenance and Inspection, 15(5), 169-177.DOI
15. 
Oh, S.W., Jung, S.H., Chung, W.S., Choi, Y.C. (2018), Investigation of the Effect of CNT Dosages on the Hydration and Heating Properties of Cement Composites with Low Water-to- Binder Ratio, Journal of the Korea Institute for Structural of Maintenance and Inspection, 22(6), 182-188.Google Search
16. 
Reda Tada, M.M., Shrive, N.G. (2001), Enhancing Fracture Toughness of High-Performance Carbon Fiber Cement Composites, ACI Materials Journal, 98(1), 168-178.DOI
17. 
Son, M.J., Kim, G.Y., Lee, S.K., Kim, H.S., Nam, Y.S. (2017), Tensile Behavior of Hybrid Fiber Reinforced Cement Composite According to the Hooked Steel Fiber and Polyvinyl Alcohol Fiber Blending Ratio and Strain and Strain Rate, Journal of the Korea Institute for Structural of Maintenance and Inspection, 21(6), 98-105.Google Search
18. 
Wang, K., Shah, P.S., Pariya., P. (2001), Plastic Shrinkage Cracking in Concrete Materials Influence by Fly and Fibers, ACI Materials Journal, 98(6), 454-464.DOI
19. 
Wang, W., Chouw, N. (2017), Behavior of CFRC Beams Strengthened by FFRP Laminates under Static and Impact Loading, Construction and Building Materials, 155(2017), 956-964.DOI