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실험계획법을 이용한 가열방식의 순환굵은골재 제조를 위한 실험적 연구
남은용,황선복,Nam, Eun-Yong,Hwang, Sun-Bok 한국건설순환자원학회 2013 한국건설순환자원학회지 Vol.8 No.1
The use of wasted concrete can settle the environmental pollution and shortage of natural aggregate. However, recycled aggregate includes substantial amount of cement paste, so that these aggregates are more porous, and less resistant to mechanical actions than natural aggregates. Recently, the new manufacturing processes of high quality recycled aggregates were suggested such as heating. In this paper, for the purpose of manufacture of high quality recycled aggregates, the heating processes was considered to the existing process of recycled aggregates. To find the optimum process, the experiment was performed through the statistical design of experiment. The heating temperatures of 4 levels (300, 450, 600 and $750^{\circ}C$) and heating duration time (5, 20, 40, 60minute) were main experimental variables. Through the test results, it was found that the optimum manufacturing condition of coarse recycled aggregate was evaluated to be $600^{\circ}C$ and 40minute. 폐기물 콘크리트의 사용은 환경 오염과 자연 골재의 부족을 해결할 수 있으나, 이러한 재생 골재는 골재 표면에 붙어 있는 시멘트 페이스트 량이 많아서 천연골재보다 더 많은 기포를 함유하고 있어 역학적 저항능력이 감소된다. 이러한 이유로, 최근에 고품질의 재활용 재생골재의 새로운 제조 공법으로 가열 등의 해결방법이 제안되어지고 있다. 본 논문에서는 고품질의 재활용 골재의 생산을 위해, 재생골재의 현존 제조공정에 가열 및 분쇄 공정을 추가하는 방법을 제안하였다. 최적의 프로세스를 찾기 위해서 통계적 실험계획법을 사용하여 실험을 수행하였고 가열 온도(4단계 : 300, 450, 600 및 $750^{\circ}C$) 및 가열 시간(4단계 : 5, 20, 40, 60분)이 주요 실험 변수였다. 시험 결과에 의해, 굵은 골재의 재활용을 위한 최적의 제조 조건은 $600^{\circ}C$와 40분으로 나타났다.
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유성원,남은용,이상준,황선복,소양섭,김재신 한국안전학회 2012 한국안전학회지 Vol.27 No.2
If cement can be manufactured with industrial byproducts such as granulated blast furnace slag,phosphogypsum, and waste lime instead of clinker, there would be many advantages, including maximum use of these industrial byproducts for high value-added resources, conservation of natural resources and energy by omitting the use of clinker, minimized environmental pollution problems caused by CO2 discharge, and reduction of the production cost. By this reason, in this study, mechanical behavior tests of non-burnt cement concrete were performed, and elasticity modulus and stress-strain relationship of non-burnt cement concrete were proposed. 6 test members were manufactured and tested according to reinforcement ratio and concrete compressive strength. By the test results, there was no difference between ordinary concrete and non-burnt cement concrete of flexural behavior. In order to verify the proposed non-burnt cement concrete model, nonlinear analytical model was derived by using strain compatibility method. By the results of comparison between test results, ordinary concrete model and proposed model, The proposed model well predicted the flexural behavior of non-burnt cement concrete
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목차 : 비소성 시메트 콘크리트의 휨 거동에 관한 연구
유성원 ( S W Yoo ),남은용 ( E Y Nam ),이상준 ( S J Lee ),황선복 ( S B Hwang ),소양섭 ( Y S Soh ),김재신 ( J S Kim ) 한국안전학회(구-한국산업안전학회) 2012 한국안전학회지 Vol.27 No.2
If cement can be manufactured with industrial byproducts such as granulated blast furnace slag, phosphogypsum, and waste lime instead of clinker, there would be many advantages, including maximum use of these industrial byproducts for high value-added resources, conservation of natural resources and energy by omitting the use of clinker, minimized environmental pollution problems caused by C02 discharge, and reduction of the production cost. By this reason, in this study, mechanical behavior tests of non-burnt cement concrete were performed, and elasticity modulus and stress-strain relationship of non-burnt cement concrete were proposed. 6 test members were manufactured and tested according to reinforcement ratio and concrete compressive strength. By the test results, there was no difference between ordinary concrete and non-burnt cement concrete of flexural behavior. [n order to verif5, the proposed non-burnt cement concrete model, nonlinear analytical model was derived by using strain compatibility method By the results of comparison between test results, ordinary concrete model and proposed model, The proposed model well predicted the flexural behavior of non-burnt cement concrete.
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