1 |
BS EN 14889-2:2006. (2006), Fibres for concrete-Part 2 : Polymer fibers-Definitions, specifications and conformity, BSI
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2 |
Kim, D. J., Naaman, A. E., El-Tawil, S. (2008), Comparative flexural behavior of four fiber reinforced cementitious composites, Cem. Concr. Compos, 25, 4144-4155.
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3 |
Kim, D. J., Park, S. H., Ryu, G. S., Koh, K, T. (2011), Comparative flexural behavior of hybrid ultra high performance fiber reinforced concrete with different macro fibers, Const. Build. Mater, 30, 917-928.
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4 |
Kim, Y. I., Park, D. S., Seo, C. H. (2005), Variations of Material Characteristics of High-strength Concrete according to Increase of Steel Fiber Volum, Journal of Architectural Institute of Korea, AIK., 21(2), 95-101
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5 |
Jeon, C K., Jeon, J. K. (2011), Properties of advance synthetic fiber reinforced concrete for improvement of tunnel shotcrete performance, Journal of the Korea Society of Hazard Mitigation, KOSHAM, 7(1), 43-50.
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6 |
Jeon, J. K., Kim, S. G., Jeon, C. K., Kim, K. H. (2014), Material Properties Evaluation of Organic Fiber Reinforcement for Performance Improvement of Impact.blast Resistance, Proceeding of the Korea Concrete Institute, KCI., 26(2), 585-586.
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7 |
Jeon, J. K., Kim, W. S., Jeon, C. K., Kim, J. C. (2014), Processing and Mechanical Properties of Macro Polyamide Fiber Reinforced Concret, Materials, 7(12), 7634-7652.
DOI
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8 |
Song, P. S., Hwang, S., Sheu, B. C. (2005), Strength properties of nylon- and polypropylene-fiber-reinforced concrete, Cem. Concr. Res, 35, 1546-1550.
DOI
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9 |
BS EN 14651:2005+A1:2007. (2007), Test methods for metallic fibers concrete - Measuring the flexural tensile strength(limit of proportionality(LOP), residual), BSI
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