Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
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Study on the characteristic of liner and cover material by accelerating agent type

급결제 종류에 따른 광산 차수재의 특성 연구

  • 조용광 (한일시멘트 테크니컬센터) ;
  • 남성영 (한일시멘트 테크니컬센터) ;
  • 이용무 (한일시멘트 테크니컬센터) ;
  • 김춘식 (한일시멘트 테크니컬센터) ;
  • 서신석 (한일시멘트 테크니컬센터) ;
  • 조성현 (한일시멘트 테크니컬센터) ;
  • 이형우 (한일시멘트 테크니컬센터) ;
  • 안지환 (한국지질자원연구원 탄소광물화사업단)
  • Received : 2017.12.04
  • Accepted : 2018.02.09
  • Published : 2018.02.28
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Abstract

At present research on mining backfill materials is being carried out to prevent ground subsidence and breaking by underground cavern of exhausted mines. However, backfill materials can cause secondary environmental issues such as ground pollution. To solve these issues, liner and cover materials are constructed before backfill materials constructed, to inhibit toxic substances form moving to the surroundings. Liner and cover materials, however, should have an accelerating performance after construction and when the accelerating performance is degraded, the work efficiency can be lowered, and the construction cost can be increased, by many rebound content. Therefore, this study develops mining liner and cover materials, and evaluates their accelerating performance and physical properties of liner and cover materials by types and content of accelerating agent. In case of aluminate accelerating agent, it is mixed with more than 5% of liner and cover materials(binder/ratio); thus an accelerating performance satisfying Korean Industrial Standards(KS) occurs, and in case of alkali-free accelerating agent, when it is mixed with more than 7%(binder/ratio), accelerating performance satisfying KS occurs. The more the accelerating agent capacity increases, the more compressive strength decreases. In addition, it is confirmed that compressive strength of aluminate accelerating agent is more degraded than compressive strength of the alkali-free accelerating agent. It is also confirmed that drying shrinkage stability of the alkali-free accelerating agent is better than the drying shrinkage stability of the aluminate accelerating agent.

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References

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