Architectural research

  • 제10권2호
  • /
  • Pages.27-35
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  • 2008
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  • 1229-6163(pISSN)
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  • 2383-5575(eISSN)
대한건축학회 (Architectural Institute of Korea)
권호 표지

Confining Effect of Mortar-filled Steel Pipe Splice

  • Kim, Hyong-Kee (Department of Architectural Engineering, Kangwon National University)
  • 투고 : 2008.05.13
  • 발행 : 2008.12.30
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초록

Because of several advantages of mortar-filled sleeve splice in reinforced concrete buildings, this method is being applied increasingly at construction sites and various methods of the splice have been developed in Korea and other countries. In order to apply this system in the field, studies on mortar-filled sleeve splice have been mainly experimental research focused on overall structural performance. However, for understanding the structural characteristics of this splice more accurately, we need to study the confining effect of sleeve, which is known to affect bond strength between filling mortar and reinforcing bar, the most important structural elements of the bar splice. Thus, in order to examine the confinement effect of mortar-filled steel pipe sleeve splice, the present study prepared actual-size specimens of steel pipe sleeve splice, and conducted a loading. Using the test results, we analyzed how the confining effect of steel pipe sleeve affects the bond strength of this splice and obtained data for developing more reasonable methods of designing the splice of reinforcement.

키워드

참고문헌

  1. Ahn, B. I., Kim, H. K., and Park, B. M. (2003) 'Confining Effect of Mortar Grouted Splice Sleeve on Reinforcing Bar,' Journal of the Korea Concrete Institute, V.15, No.1: 102-109 https://doi.org/10.4334/JKCI.2003.15.1.102
  2. Architectural Institute of Japan. (1986) 'Recommendation for Detailing and Placing of Concrete Reinforcement,' 271-279
  3. Ase, M. et al. (1996) 'Study for Practical Application of Grout Filled Connectors for High Strength Reinforcing Bars(No. 1 Performance of the grout filled connector with SD490 reinforcing bars),' Summaries of Technical Papers of Annual Meeting Architectural Institute of Japan, C-2, Structures IV: 743-744
  4. ASTM C 109/C 109M. (1995) 'Standard Test Method for Compressive Strength of Hydraulic Cement Mortars (Using 2-in. or [50-mm] Cube Specimens),' 385-389
  5. Einea, A., Yamane, T., and Tadros, M. K. (1995) 'Grout- Filled Pipe Splices for Precast Concrete Construction,' PCI Journal, January-February: 82-93
  6. Kim, H. K. (1998) 'Development of Grout-Filled Splice Sleeve System and Estimation of its Mechanical Performance under Monotonic Loading,' Journal of Architectural Institute of Korea, V.14, No.8: 63-73
  7. Kim, H. K. (2008) 'Structural Performance of Steel Pipe Splice for SD500 High-strength Reinforcing Bar under Cyclic Loading,' Architectural Research, Vol.10, No.1: 13-23
  8. Lee, L. H., Yi, W. H., Kim, B. K., Lee, Y. J., and Lee, D. W. (1997) 'Experimental Study on Reinforced-Bar Connection with Steel Pipe Sleeve,' Journal of Architectural Institute of Korea, V.13, No.3: 241-250
  9. Lee, S. H., and Kim, H. K. (2007) 'Development of Steel Pipe Splice Sleeve for High Strength Reinforcing Bar(SD500) and Estimation of its Structural Performance under Monotonic Loading,' Journal of the Korea Institute for Structural Maintenance Inspection, V.11, No.6: 169-180
  10. Untrauer, R. E., and Henry, R. L. (1965) 'Influence of Normal Pressure on Bond Strength,' ACI Journal, May: 577-585