JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
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ISSN : 2287-6979 (Online)
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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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2021-10
(Vol.25 No.5)
10.11112/jksmi.2021.25.5.149
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References
1
Yoon, Y. S., Kim, T. H., Kwon, J. S. (2020), Evaluation of Chloride Diffusion Behavior and Analysis of Probabilistic Service Life in Long Term Aged GGBFS Concrete, Journal of the Korea Institute for Structural Maintenance and Inspection, KSMI, 24(3), 47-56.
2
Oh, K. S., Park, K. T., Kwon, J. S. (2016), Evaluation of Anti-Corrosion Performance of FRP Hybrid Bar with Notch in GGBFS Concrete, Journal of the Korea Institute for Structural Maintenance and Inspection, KSMI, 20(4), 51-58.
3
Hwang, C. S., Park, J. S., Park, K. T., Kwon, J. S. (2017), Mechanical Performance Evaluation of RC Beams with FRP Hybrid Bars under Cyclic Loads, Journal of the Korea Institute for Structural Maintenance and Inspection, KSMI, 21(1), 9-14.
4
Nanni, A., Micelli, F., La-Tegola, A. (2001), Durability of GFRP Bars Subjected to Aggressive Environment, Proceeding of 22nd International SAMPLE Europe Conference, Paris, 431-443.
5
Alkhrdaji, T., Nanni, A., Chen, G., Barker, M. (1999), Upgrading the transportation Infrastructure: Solid RC Decks Strengthened with FRP, Concrete International, 21(10), 37-41.
6
Nanni, A., Nenninger, J., Ash, K., Liu, J. (1997), Experimental Bond Behavior of Hybrid Rods for Concrete Reinforcement, Structural Engineering and Mechanics, ACI, 5(4), 339-354.
7
ACI Committee 440, (2006), Guide for the Design and Construction of Concrete Reinforced with FRP Bars (ACI 440.1R-06), American Concrete Institute, Michigan
8
CSA Group, (2002), Design and Construction of Building Components with Fibre-Reinforced Polymers (CAN/CSA S806-02, Canadian Standard Association, Canada, 2002
9
JSCE Research Subcommittee on continuous Fiber Reinforcing Materials, (1997), Recommendations for Design and Construction of Concrete Structures Using Continuous Fiber Reinforcing Materials, Japan Society of Civil Engineers, 1997.
10
KCI Committee 112, (2019), FRP reinforcement structural design guidelines (KCI PM112.1-19), Korea Concrete Institute, Seoul
11
Choi, D. U., Chun, S. C., Ha, S.S. (2009), Splice Length of GFRP Rebars Based on Flexural Tests of Unconfined RC Members, Journal of the Korea Concrete Institute, KCI, 21(1), 65-74.
12
Orangun, C. O., Jirsa, J. O., Breen, J. E. (1977), A Reevaluation of Test Data on Development Length and Splices, Journal Proceedings, ACI, 74(3), 114-122.
13
Chun, S. C., Choi, D. U. (2010), Development and Splice Lengths of FRP Bars with Splitting Failures, Journal of the Korea Concrete Institute, KCI, 22(4), 519-525.
14
ACI Committee 318, (2008), Building Code Requirements for Structural Concrete and Commentary (ACI 318M-08), American Concrete Institute, Michigan, 465.
15
ACI Committee 408, (2003), Bond and development of straight reinforcing bars intension (ACI 408R-03), American Concrete Institute, Michigan, 6-9.
16
Choi, Y.C., Park, K.S., Choi, C.S., Choi, H.K. (2011), Bond Properties of GFRP Rebar in Fiber Reinforced Concrete (Engineered Cementitious Composite, Journal of the Korea Concrete Institute, KCI, 23(6), 809-815.
17
Jung, W. T., Park, Y. H., Park, J. S. (2011), An Experimental Study on Bond Characteristics of FRP Reinforcements with Various Surface-type, Journal of the Korean Society of Civil Engineers, KSCE, 31(4A), 279-286.
18
Tang, C.W., Chen, C. K. (2020), Modeling Local Bond Stress-Slip Relationships of Reinforcing Bars Embedded in Concrete with Different Strengths, Materials, 13(17), 3701
19
Lutz, L. A., Gergely, P. (1967), Mechanics of Bond and Slip of Deformed Reinforcement, ACI Journal Proceedings, 64(11), 711-721.
20
Lee, J. Y. (2011), Reinforced Concrete Structures, DongHwa Technology Publishing Co., Paju, 332-335.
21
Oh, H. S., Kang, T. S., Oh, K.C. (2014), A Flexural Bonding Characteristic of GFRP Rebar Embedded in Concrete Beam Under Cyclic Loading, Journal of the Korean Society of Hazard Mitigation KOSHAM, 14(4), 51-57.
22
ASTM, (2015), Standard Test Method for Comparing Bond Strength of Steel Reinforcing Bars to Concrete Using Beam-End Specimens (A944-15R), ASTM International, PA.
23
RILEM, (1973), Bond Test for Reinforcing Steel: 1-beam test (7-II-28D) Tentative Recommendations, RILEM Journal Materials and Structures, 6(32), 96-105.
24
British Standards Institution (BSI), (2005), Steel for the Reinforcement of Concrete-Weldable Reinforcing Steel-Bar, Coil and Decoiled Product-Specification (BS 4449), British Standards Institution, London, 16-22.
25
British Standards Institution (BSI), (2000), Determination of the bond behaviour between reinforcing steel and autoclaved aerated concrete by the beam test - Part 1: Short term test (BS EN 12269-1), British Standards Institution, London, 1-9.
26
ACI Committee 440, (2007), Report on Fiber-Reinforced Polymer (FRP) Reinforcement for Concrete Structures (ACI 440R-07), American Concrete Institute, Michigan, 19-21.
27
Rteil, A., Soudki, K., Topper, T. (2011), Mechanics of bond under repeated loading, Construction and Building Materials, 25(6), 2822-2827.
28
Noël, M., Parvizi, M. (2020), Bond-Stress Distribution of GFRP-Reinforced Concrete Beams Containing Seawater, Journal of Composites for Construction, ASCE, 24(4), 04020035
29
Sarhan, Mazin M. , Hadi, Muhammad N.S. , Teh, Lip H. (2018), Bond behaviour of steel plate reinforced concrete beams, Construction and Building Materials, 189, 751-756.
30
Hamad, B.S., Ali, A.Y.H., Harajli, M.H. (2005), Effect of fiber-reinforced polymer confinement on bond strength of reinforcement in beam anchorage specimens, Journal of Composites for Construction, ASCE, 9(1), 44-51.
31
Choi, D. U., Chun, S. C., Ha, S.S. (2012), Bond strength of glass fibre-reinforced polymer bars in unconfined concrete, Engineering Structures, 34, 303-313.
32
Darwin, D., Graham, E. K. (1993), Effect of Deformation Height and Spacing on Bond Strength of Reinforcing Bars, ACI Structural Journal, 90(6), 646-657.
33
Chun, S. C., Choi, D. U., Ha, S.S., Oh, B. H. (2008), Prying Action of Spliced Reinforcements in Tension, Proceedings of the Korea Concrete Institute Conference, KCI, 20(1), 1085-1088.
34
Okelo, R. (2007), Realistic Bond Strength of FRP Rebars in NSC from Beam Specimens, Journal of Aerospace Engineering, ASCE, 20(3), 133-140.
35
Okelo, R., Yuan, R. L. (2005), Bond Strength of Fiber Reinforced Polymer Rebars in Normal Strength Concrete, Journal of Composites for Construction, ASCE, 9(3), 203-213.
36
Oh, H. S., Sim, J. S., Kang, T. S., Kwon, H. W. (2011), An Experimental Study on the Flexural Bonding Characteristic of a Concrete Beam Reinforced with a GFRP Rebar, KSCE Journal of Civil Engineering, KSCE, 15(7), 1245-1251.
37
Harajli1, M., Abouniaj, M. (2010), Bond Performance of GFRP Bars in Tension: Experimental Evaluation and Assessment of ACI 440 Guidelines, Journal of Composites for Construction, ASCE, 14(6), 659-668.
