Browse > Article
http://dx.doi.org/10.4334/JKCI.2002.14.3.420

A Study for Recycling CO2 Silicate Bonded Waste Foundry Sand as Fine Aggregate for Concrete  

문한영 (한양대학교 토목공학과)
최연왕 (세명대학교 토목공학과)
송용규 (한양대학교 토목공학과)
Publication Information
Journal of the Korea Concrete Institute / v.14, no.3, 2002 , pp. 420-429 More about this Journal
Abstract
The amount of $CO_2$-silicate bonded waste foundry sand(WFS) occurred in Korea is over 800,000 ton per year. WFS, as a by-product, is generated through manufacturing process of foundry may affect our environmental contamination, The reason is that WFS has been buried itself not less than 90% out of total WFS. So, it can give damage on the ground of contamination in soil and underwater. Therefore, it is necessary to establish the method recycling WFS because of being intensified waste management law. In this study, we performed the research with respect to harmful component analysis, the qualities of WFS mortar and concrete mixed with WFS. As the results the specific gravity of WFS is the same as that of natural aggregate while unit weight and percentage of solids of WFS are smaller than those of it. But it is found that WFS can be used by substituting WFS for natural aggregate after control of poor grade of WFS. The flowability of mortar and concrete with WFS is inferior to those of natural aggregate, and the setting time of concrete with WFS is faster than that with only natural aggregate, On the contrary, the bleeding of concrete with WFS is shown good result, and compressive and tensile strength of concrete substituted WFS for 30% are higher than those with only natural aggregate regardless of elapsed time.
Keywords
$CO_2$-silicate bonded WFS; environmental contamination; bleeding; poor grade; strength;
Citations & Related Records
연도 인용수 순위
  • Reference
1 박제선 외3인, “폐주물사를 혼입한 콘크리트의 적정 배합설계,” 한국콘크리트 학회지, 제9권 6호, 1997, pp. 195-205.   과학기술학회마을
2 한국자원재생공사, “주형종류별 폐주물사의 환경유해성 검토 및 적정 관리방안 연구,” 생산기술연구원, 1997.
3 American Foundrymen's Society, "Alternate Utilization of Foundry Sand," Report to Illinois Department of Commerce and Community Affairs, Chicago, 1991.
4 Hall, C., "Water Sorptivity of Mortars Concretes, A Review," Magazine of Concrete Research, Vol. 41, No. 147, 1989, pp.51-61.   DOI
5 Roy, S., et. al, "Investigation of Portland Slag Cement Activated By Waterglass," Cement and Concrete Research, Vol. 28, No.7, pp.1049-1056, 1998.   DOI   ScienceOn
6 Paul T., Mike G., and Ray Regan, "Properties of Controlled Low Strength Material Containing Foundry Sand," ACI Materials Journal, Vol. 97, No. 6, 2000, pp.698-702.
7 한국자원재생공사, “주물사 재활용 기술개발에 관한 연구,” 산업기술정보원, 1995.
8 Tarun R. N., et. al, "Application of Foundry By-Product Materials in Manufacture of Concrete and Masonry Products," ACI Materials Journal, Vol. 93, No. 1, 1996, pp.41-50.
9 藤井 學, 阪田 憲次, 爲澤 長雄, 川上 俊器, “細骨材の粒子形狀改善がモルタルの諸性狀に及ぽす影響,” コンクリート工學論文集, 第7卷 1号, 1996, pp.67-77.
10 최연왕 외 4인, “폐주물사를 사용한 콘크리트의 물성에 관한 연구,” 콘크리트학회 봄 학술 발표회, 한국콘크리트학회, 제11권, 1호, 1999, pp.52-57.   과학기술학회마을
11 최춘선, “鑄物古砂를 活用한 建築資材 生産에 관하여” 한국자원 리싸이클링학회지 Vol. 8, No. 5, 1999, pp.59-66.
12 한국자원 리싸이클링 학회, “리싸이클링 백서,” 문지사, 1999, pp.157-164.
13 환경부, “폐기물관리법,” 1999.
14 한국경제신문, “건설현장 모래 품귀,” 2001. 12. 5. bada@hankyung.com.
15 文翰英, 崔然汪, 宋容閨, 申東求, “폐주물사를 콘크리트용 잔골재로 재활용하기 위한 기초연구,” 한국콘크리트학회 봄학술발표회, 제13권 1호, 2001, pp.281-286.   과학기술학회마을