Journal of the Korea Academia-Industrial cooperation Society (한국산학기술학회논문지)

The Korea Academia-Industrial cooperation Society (한국산학기술학회)
권호 표지
DOI QR코드

DOI QR Code

Dispersibility and Flexural Toughness Evaluation of Fiber Reinforcement Cellular Sprayed Concrete by added Foam

기포를 혼입한 섬유보강 셀룰러 스프레이 콘크리트 공법의 분산성 및 휨인성 평가

  • Received : 2015.05.19
  • Accepted : 2015.06.11
  • Published : 2015.06.30
Download PDF
⟨ Previous Next ⟩

Abstract

In this paper, dispersibility of steel fiber is improved mixing with form for material development of protection and blast resistant structure sprayed concrete. And it is developed a high toughness cellular sprayed concrete material using steel fiber. Oversupply form for dispersibility improvement of steel fiber is mostly fade away through sprayed, finally it is satisfied with the proper mixing ratio under 3 % ~ 6 %. This is considered for compressive strength and flexural toughness. Test results of compressive strength showed superior strength capability in 28, 56 days, also flexural strength and flexural toughness is great. Then oversupply form is enhanced for dispersibility of steel fiber and I think that it did not cause decreasing of strength. But analysis results of pore structure through image analysis failed for a great spacing factor and specific surface area. This is largely measured in spacing factor because air content have a grate evaporation effect for sprayed.

본 논문에서는 방호 방폭 구조물용 스프레이 콘크리트 재료 개발을 위해 기포를 혼입하여 강섬유의 분산성을 향상시킴으로서 강섬유 혼입 고인성 셀룰러 스프레이 콘크리트 재료를 개발하였다. 강섬유의 분산성 향상을 위해 과다하게 투입된 기포는 스프레이를 통해 대부분 소산하여 최종적으로 3 % ~ 6 % 미만의 적정 혼입율을 만족하게 되며, 이 상태에서 압축강도 및 휨인성 특성에 대해 고찰하였다. 압축강도 시험결과 28일 및 56일 강도에서 우수한 강도성능을 나타냈으며, 휨강도 및 휨인성 특성 또한 우수한 성능을 보여 과다하게 투입된 기포는 강섬유의 분산성을 향상 시키지만, 강도저하를 유발하지는 않는 것으로 판단된다. 그러나 화상분석을 통한 공극구조 분석 결과 소요의 간격계수와 비표면적을 얻는데 실패하였으며, 이것은 스프레이에 의한 공기량 소산 효과가 너무 커 간격계수가 다소 크게 측정된 것으로 판단된다.

Keywords

References

  1. Shen, B., Hubler, M., Paulino, G. H., and Struble, L. J., "Functionally-Graded Fiber-Reinforced Cement Composite : Processing, Microstructure, and Properties," Cement and Concrete Composites, Vol. 11, No. 6, pp. 663-673, 2008. DOI: http://dx.doi.org/10.1016/j.cemconcomp.2008.02.002
  2. Zhang, J., Leung, C. K. Y., and Cheung, Y. N., "Flexural Performance of Layered ECC-Concrete Composite Beam," Composites Science and Technology, Vol. 11, No. 6, pp. 1501-1512, 2005.
  3. HAN SeungYeon, "Dispersion of Silica Fume by Air Slurry and its Effect on Mechanical Properties at Ready Mixed Concrete", Master's thesis of Engineering, Graduate school of Kangwon National University, 2014.
  4. Morgan D.R., "Freeze-Thaw Durability of Wet-Mix and Dry-Mix Shotcretes with Silica Fume and Steel Fibres" Reprinted, with permission, from Cement, Concrete and Aggregates, Vol. 10, No.2, 1988.
  5. KIM Jin-woung, "Evaluation of Rheology and Constructability of Crushed-Sand Shotcrete", doctorate thesis of engineering, Graduate school of Kangwon National University, 2011.
  6. CHIO Sungyong, "Rheology and Air Void Structures of Wet-Mix Shotcrete", doctorate thesis of engineering, Graduate school of Kangwon National University, 2009.
  7. KS F 2402, "Method of test for slump of concrete", KS, 2007.
  8. KS F 2421, "Method of test for air content of fresh concrete by pressure method", KS, 2006.
  9. KS F 2449, "Method of test for air content of fresh concrete by volumetric method", KS, 2002.
  10. KS F 2783, "Sampling method for materials of steel fiber reinforced shotcrete", KS, 2007.
  11. KS F 2405. "Standard test method for compressive strength of concrete", KS, 2010.
  12. KS F 2566, "Standard test method for flexural performance of fiber reinforced concrete", KS, 2014.
  13. ASTM C 457, "Standard Test Method for Microscopical Determination of Air Void Content and Parameters of the Air Void System in Hardened Concrete", ASTM, 2009.
  14. Shotcrete for rock support-guidelines and recommendation, International Tunnelling Association, 1990.
  15. Kansas DOT Specification, "Division 400 Concrete Standard Specifications, 401 Concrete, 401-5 Commercial Grade Concrete", pp. 400-1-400-14, 2007.
  16. Mindess, S., Young, J. F., "Concrete", Prentice-Hall, pp.485-500, 1981.