Journal of the Korea Concrete Institute (콘크리트학회논문집)

Korea Concrete Institute (한국콘크리트학회)
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Flexural Performance and Cracking Resistance of Continuous Composite Slab using Micro Steel Fibers

마이크로 강섬유 콘크리트를 적용한 연속 합성슬래브의 휨 및 균열 저항성능

  • Received : 2014.12.18
  • Accepted : 2015.03.20
  • Published : 2015.08.30
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Abstract

In the present study, to enhance the constructability, a composite slab system using deck plate and micro steel fiber concrete was studied. In the proposed slab system, on-situ re-bar placement is not required. Steel fibers replace the temperature reinforcement. The present study focused on the crack control at the slab top in the continuous composite slab without spliced bars. Eight continuous slabs with various parameters were tested under vertical loading. The test parameters were the amount and types of micro steel fibers, types of deck plate, and the use of top bars in the continuous slab. To evaluate the crack resistance of the slabs, crack widths were measured in the continuous slabs. The test results showed that although the top spliced bars were not used, cracking were restrained by large flexural stiffness of the composite sections.

본 연구에서는 시공성 향상을 위해 데크플레이트와 비정질강섬유 콘크리트를 적용하여 현장 무배근 슬래브 시스템을 연구하였다. 제안한 슬래브에서는 온도철근을 강섬유로 대체하였다. 본 연구는 연속슬래브에서 상부 철근이 연속되지 않는 경우 슬래브의 상부 균열 제어를 주로 고려하였다. 실험변수로 비정질강섬유 혼입량, 강섬유 종류, 데크플레이트 종류, 연속구간의 철근 이음을 고려하였으며, 수직하중을 받는 2경간 슬래브를 실험하였다. 슬래브의 균열저항성능을 평가하기 위하여 연속슬래브의 하중에 따른 균열폭을 계측하였다. 실험결과, 상부 이음철근을 사용하지 않더라도 합성슬래브의 높은 휨강성으로 인하여 균열을 억제할 수 있는 것으로 나타났다.

Keywords

References

  1. Gardner, N. J. and Fu, H. C., "Effects of High Construction Loads on the Long-Term Deflections of Flat Slabs", ACI Structural Journal, Vol.84, No.3, 1987, pp.349-360.
  2. Park, H. G., Hwang, H. J., Hong, G. H., Kim, Y. N., and Kim, J. Y., "Immediate and Long-Term Deflections of Reinforced Concrete Slabs Affected by Early-Age Loading and Low Temperature", ACI Structural Journal, Vol.109, No.3, 2012, pp.413-422.
  3. Hwang, H. J., Park, H. G., Hong, G. H., Kim, J. Y., and Kim, Y. N., "Measurement and Prediction of Long-term Deflection of Flat Plate Affected by Construction Load", Journal of the Korea Concrete Institute, Vol.26, No.5, 2014. pp.615-625. https://doi.org/10.4334/JKCI.2014.26.5.615
  4. Hameed, R., Turatsinze, A., Duprat, F., and Sellier, A., "Metallic Fiber Reinforced Concrete: Effect of Fiber Aspect Ratio on the Flexural Properites", ARPN Journal of engineering and applied science, Vol.4, No.5, 2009, pp.67-72.
  5. Choi, H. J., Choi, K. K., Choi, O. C., and Hwang, Y. J., "A Prediction Model of Shrinkage Cracking of Steel Fiber Reinforced Concrete", Journal of Architectural Institute of Korea, Vol.28, No.6, 2012. pp.59-66.
  6. Kim, S. D., Choi, K. K., and Choi, S. J., "Characteristics of Restrained Drying Shrinkage Cracking of Amorphous Steel Fiber-Reinforced Concrete", Journal of Architectural Institute of Korea, Vol.30, No.7, 2014. pp.63-70.
  7. Park, K. W., Lee, J. S., Kim, W., Kim, D. J., and Lee, G. Y., "Cracking Behavior of RC Tension Members Reinforced with Amorphous Steel Fibers", Journal of the Korea Concrete Institute, Vol.26, No.4, 2014. pp.475-482. https://doi.org/10.4334/JKCI.2014.26.4.475
  8. Ku, D. O., Kim, S. D., Kim, H. S., and Choi, K. K., "Flexural Performance Characteristics of Amorphous Steel Fiber-Reinforced Concrete", Journal of the Korea Concrete Institute, Vol.26, No.4, 2014. pp.483-489. https://doi.org/10.4334/JKCI.2014.26.4.483
  9. ACI Committee 318, "Building Code Requirements for Structural Concrete and Commentary (ACI 318-11)", American Concrete Institute, Farmington Hills, MI, 2011, 473pp.
  10. KCI, "2012 Concrete Structure Design Standard", Korea Concrete Institute, Gimundang, 2012, 342pp.
  11. AIK, "Korean Building Code and Commentary (KBC 2009)", Gimundang, 2009.
  12. Park, R., "State-of-the-Art Report on Ductility Evaluation from Laboratory and Analytical Testing", Proceeding of 9th World Conference on Earthquake Engineering, Tokyo-Kyoto, Japan, Vol.8, 1988, pp.605-616.