Journal of the Architectural Institute of Korea Structure & Construction (대한건축학회논문집:구조계)

Architectural Institute of Korea (대한건축학회)
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Engineering Properties of Concrete using Highly Silicious Limestone By-product from Cement Manufacturing Process

시멘트 제조과정 중 실리카질 석회암 부산물(HSG)을 골재로 이용하는 콘크리트의 공학적 특성

  • 한천구 (청주대학교 건축공학과) ;
  • 강창운 (청주대학교 건축공학과)
  • Received : 2012.08.02
  • Published : 2012.10.25
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Abstract

Highly silicious limestone gravel (HSG) contains high volume of calcium carbonate and silica. It is a by-product material obtained from cement manufacturing process, and thus needs to be utilized in terms of waste management. This study investigates the effect of HSG on the mechanical properties of both normal and high strength concretes. For normal concrete, various amount of HSG was replaced with coarse aggregates to study the effect caused by replacing coarse aggregate with HSG. Various water to binder ratios were used to study the effect of HSC on high strength concrete. Results showed that the replacement of coarse aggregate with HSG showed similar mechanical properties to normal concrete without HSG. In high strength concrete, higher elastic modulus was obtained although all other mechanical properties were similar to reference concrete. It was found that the effectiveness of HSG on the slump, air content, compressive strength and elastic modulus of the concrete, were higher when HSG was used for high strength concrete.

Keywords

References

  1. 건설산업동향, 건설산업연구원
  2. 한국콘크리트학회, 최신 콘크리트 공학, 기문당, 2011
  3. 한천구, 콘크리트의 특성과 배합설계, 기문당, 2011
  4. 류현기, 충북지역 광산폐석의 콘크리트용 골재화에 관한연구, 청주대학교 박사학위논문, 1996.2
  5. 한천구, 레미콘 품질관리(I),(II),(III), 기문당, 2008-2010
  6. 대한건축학회, 건축재료, 기문당, 2010
  7. 대한건축학회, 건축공사표준시방서, 기문당, 2006
  8. 한천구외 5인, 건축재료실험, 기문당, 2003
  9. 강 훈, 150MPa 초고강도 콘크리트-의 최적배합과 RC보 휨거동 평가
  10. 須藤繪美, 骨材のアルカリシリカ反応性試験に關するー考察 (そのー各試験方法における判定結果の比較), 第59回セメント 技術大會講演要旨, 社団法人セメント協會, pp.128-129, 2005.
  11. 山戶博晃, 堆積岩系骨材の岩石鉱物學てき特徴とそのアルカリ シリカ反応性, 第62回セメント技術大會講演要旨, 社団法人セ メント協會, pp.78-79, 2008.
  12. 西田朗, 石灰石骨材を用いたコンクリートの耐久性に關する儉討, 日本建築學會大會學術講演梗概集, pp.405-406,1991
  13. 宮田和明, 石灰石骨材を用いたコンクリートの基礎的研究, 日本建築學會東海支部研究報告集, pp.117-120, 2002
  14. 市川博也, 粗骨材と細骨材を用いたコンクリートの高温加熱後の力學的特性, 日本建築學會大會學術講演梗概集, pp.1329-1330, 2010
  15. Cement & Concreteエンサイクロペディア, 社団法人セメント協會. 1996
  16. 生コン工場品質管理ガイドブック, 全國生コンクリート工業組合連合會, 1999
  17. 笠井芳夫 外1, コンクリートの試験方法, 技術書院, 1993
  18. S P Deolakar : Hand book for Designing Cement plants. . BS Publication. 2008
  19. S. N. GHOSH : Advanc e s in Cement Technology PERGAMON PRESS. 1981