DOI QR코드

DOI QR Code

Strength Properties of Polymer Concrete Using Recycled Aggregate

재생골재를 사용한 폴리머 콘크리트의 강도 특성

  • Published : 2005.07.01

Abstract

This study was performed to evaluate the strength properties of polymer concrete using recycled aggre-gate. The compressive strength, splitting tensile strength, flexural strength and pulse velocity of polymer concrete were decreased with increasing the content of recycled aggregate. At the curing age of 7days, the compressive strength was $80.5\~88.3$ MPa, the splitting tensile strength was $9.1\~10.6$ MPa, the flexural strength was $19.2\~21.5$ MPa and the pulse velocity was $3,931\~4,041$ m/s, respectively. Also, the compressive strength, splitting tensile strength, flexural strength and pulse velocity of concrete using recycled fine aggregate were higher than that of the silica sand. Therefore, these recycled aggregate polymer concretes were estimated for high strength concrete without major problem.

Keywords

References

  1. ACI., 1986, Guide for the use of polymers in concrete, ACI Journal, 83 (5): 798-829
  2. Collins, R. J., 1994, Reuse of demolition materials in relation to specifications in the U.K demolition and reuse of concrete and masonry, F&FN SPON: 49-58
  3. Folwer. D. W., 1994, Current uses of polymer concrete in the United States, Proceedings of the First East Asia Symposium on Polymers in Concrete, Chuncheon, Korea, May 2-3, pp.3-9
  4. Henrichsem, A., 2000, Use of recycled aggregates in Europe. International Workshop on Recycled Concrete: 1-8, JSPS 76 Committee on Construction Materials
  5. Kibert, C. J., 1994, Concrete/masonry re cycling progress in the USA, demolition and reuse of concrete and masonry, F&FN SPON: 83-91
  6. Neville, A. M., 1995, Properties of concrete, 4rd Ed., Longman Malaysia, London: 666-674
  7. Ohama, Y. and K. Demura., 1979, Effect of coarse aggregate on compressive strength of polyester resin concrete, The International Journal of Cement Composites, 1(3): 111-119
  8. Swamy, R. N., 1986, Cement replacement materials (concrete technology and design), Surrey University Press: 171-196
  9. Sung, C. Y., 1995, Properties of high performance lightweight polymer concrete. Journal of the Korean Society of Agricultural Engineers, 37: 72-81. (in Korean)
  10. Sung. C. Y. and Y. I. Kim., 2003, Physical and mechanical properties of concrete using recycled aggregate and industrial by-products, Journal of the Korean Society of Agriculural Engineers, 45(6): 128-135. (in Korean)