Journal of the Korean Crystal Growth and Crystal Technology (한국결정성장학회지)

The Korea Association of Crystal Growth (한국결정성장학회)
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Properties of carbonated green construction materials by changes in processing conditions

공정조건 변화에 따른 탄산화 녹색건자재의 물성

  • Kim, Yootaek (Department of the Materials Engineering, Kyonggi University)
  • Received : 2013.05.27
  • Accepted : 2013.06.11
  • Published : 2013.06.30
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Abstract

The purpose of this study is to enhance the mechanical strength of specimens containing fly ash from fluidized bed type boiler, which the recycling rate will be eventually increased. Specimens containing fly ash in a certain portion were made and aged for 3, 14, and 28 days. Specimens were carbonated under the supercritical condition at $40^{\circ}C$. The carbonation process under the supercritical condition was performed to enhance the mechanical property of specimens by filling the voids and cracks existing inside cement specimen with $CaCO_3$ reactants. The additional aging effect after the supercritical carbonation process on mechanical strength of specimens was also investigated by comparing the compressive strength with and without 7 day extra aging. Under the supercritical condition and additional 7 day aging specimens were very effective for enhancement of mechanical strength and compressive strength increased by 44 %.

발전소에서 발생되는 산업부산물인 석탄재는 포집방법에 따라 크게 저회와 비산회로 구분되는데, 순환유동층 연소방식에서 발생되는 비산회는 탄산화 반응 인자인 Ca 성분을 다량 포함하고 있다. 탄산화 반응 인자가 풍부한 비산회를 시멘트에 일정량 치환하여 제조한 경화체를 초임계 이산화탄소($CO_2$) 분위기조건에서 반응시켜 제작된 경화체의 기계적 물성향상을 도모하였다. 시멘트 대비 비산회 치환량을 10~40 %까지 10 % 단위로 4수준으로 하여 경화체를 제작하였으며 각각 3, 14, 28일 동안 양생하여 각 양생일 마다 탄산화를 진행하였으며 공정조건 변수로 탄산화 시 발생되는 수분과 미수화 반응물의 추가적인 포졸란 반응을 유도하기 위하여 탄산화 후 7일 동안 추가양생을 실시하였다. 공정조건의 변화를 변수로 둔 경화체의 무게변화율, TG/DTA 분석, 1 % 페놀프탈레인 알칼리성 측정을 통하여 탄산화 진행여부를 확인하였으며, 경화체의 압축강도 측정을 통해 기계적 물성향상을 분석하였다. 임계 탄산화 후 7일간 추가 양생시킨 녹색 건자재의 기계적 물성은 추가 양생하지 않은 시편과 비교해 44 % 향상되었다.

Keywords

References

  1. K.G. Lee, "Bloating mechabism of artificial lightweight aggregate with reject ash", J. Kor. Cryst. Growth and Cryst. Tech. 22[3] (2012) 158. https://doi.org/10.6111/JKCGCT.2012.22.3.158
  2. B.S. Chun and Y.H. Yeoh, "A study on the recycling of coal ash as structural backfill materials", J. Kor. Ocean Eng. Soi. 14[1] (2000) 74.
  3. S.J. Choi and M.H. Kim, "A study on the durabilities of high volume coal ash concrete by the kinds of coal ash", J. Kor. Build. Const. Ins. 9[3] (2009) 73. https://doi.org/10.5345/JKIC.2009.9.3.073
  4. Y.W. Yoon, K.S. Chae and K.H. Song, "Evaluation of static and dynamic characteristic of coal ashes", J. Kor. Geo-Enciron, Soc. 10[3] (2009) 5.
  5. N.S. Ahn, J.H. Lee and Y.H. Lee, "Sulfate attack according to the quantity of composition of cement and mineral admixtures", J. Kor. Building Construction Ins. 11[6] (2011) 547. https://doi.org/10.5345/JKIBC.2011.11.6.547
  6. J.Y. Park, Y.T. Kim and H.J. Kim, "Carbonation of coal fly ash for construction materials", J. Kor. Cryst. Growth and Cryst. Tech. 22[3] (2012) 147. https://doi.org/10.6111/JKCGCT.2012.22.3.147
  7. S.H. Hong, B.D. Lee and S.H. Han, "Application of fly ash concrete in the pavement", J. Kor. Concrete Ins. 20[1] (2008) 701.
  8. J.S. Sim, K.G. Lee, Y.T. Kim and S.K. Kang, "Hydration characteristics of coal-fly ash containing high CaO compound", J. Kor. Ceramic Soc. 49[2] (2012) 185. https://doi.org/10.4191/kcers.2012.49.2.185
  9. W.S. Kim, T.K. Kang, M.S. Paik, S.S. Kim and S.J. Jung, "The experimental study on carbonation properties of high volume fly-ash concrete", J. Kor. Architectural Ins. 23[1] (2003) 207.
  10. S.H. Han and M.J. Yong, "The future of concrete admixture industry for low carbon, green growth", Magazine of Concrete Research 21[4] (2009) 41-43.
  11. I.T. Kim, H.Y. Kim, G.I. Park, J.H. Yoo and J.H. Kim, "Effect of carbonation reaction of portlandite with supercritical carbon dioxide on the characteristics of cement matrix", Applied Chemistry 5[1] (2001) 60.
  12. H.S. Ahn, J.S. Kim and H.S. Lee, "A study on fixed amount of $CO_2$ and the estimation of production of $CaCO_3$ on waste concrete powder by wet carbonation", J. Kor. Architectural Ins. 27[7] (2011) 133.

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