Browse > Article
http://dx.doi.org/10.14190/JRCR.2022.10.4.506

The Quality Properties of Quaternary Component Blended High Fluidity Concrete Using Industrial By-products for Carbon Neutrality  

Yong-Jic, Kim (Department of Environment and Energy Engineering, Daejin University)
Publication Information
Journal of the Korean Recycled Construction Resources Institute / v.10, no.4, 2022 , pp. 506-513 More about this Journal
Abstract
In this paper, as part of a study for carbon neutrality, the quality properties of quaternary component high-fluidity concrete, which significantly replaced up to 80 % of the cement usage by using three industrial by-products, were evaluated. As a result of the evaluation, even if a large amount of industrial by-products were replaced by more than 80 % of the amount of cement used, it was possible to obtain quality that satisfies the target performance in all concrete mix. In the case of flow properties, mechanical properties, and durability, compared to the existing standard concrete mix, the performance tends to decrease, but it is judged that the performance above the required performance level can be satisfied. When considered comprehensively, the quaternary component High-Fluidity Concrete with a large mixing amount of fine powder of blast furnace slag showed relatively good performance.
Keywords
Quaternary component; High fluidity concrete; Industrial by-products; Carbon neutrality;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 Baek, C.H., Tae, S.H., Roh, S.J., Lee, J.H., Shin, S.W. (2011). A study on the requisite elements of LCCO2 evaluation system at planning stage of building, Korean Journal of Construction Engineering and Management, 12(3), 31-41.
2 Choi, Y.W., Choi, W., Kim, B.K., Jung, J.G. (2008). Flowability and strength properties of high flowing self-compacting concrete using for tunnel lining, International Journal of Concrete Structures and Materials, 2(2), 145-152 [in Korean].
3 Choi, Y.W., Kim, Y.J., Shin, H.C., Moon, H.Y. (2006). An experimental research on the fluidity and mechanical properties of high-strength lightweight self-compacting concrete, Cement and Concrete Research, 36(9), 1595-1602.   DOI
4 Choi, Y.W., Oh, S.R., Kim, J.H., Kim, K.H. (2013). A study on the quality properties of exposed high fluidity concrete using fly ash and limestone powder, Journal of the Korean Recycled Construction Resources Institute, 1(1), 67-75 [in Korean].   DOI
5 Choi, Y.W., Oh, S.R., Park, M.S., Choi, B.K. (2014). The experimental study on the fluidity properties of mortar using basalt fiber and high volume fly ash, Journal of the Korean Recycled Construction Resources Institute, 2(4), 345-353 [in Korean].   DOI
6 Choi, Y.W., Oh, S.R., Park, M.S., Choi, B.K., Kim, J.H. (2013). The compressive strength properties of high fluidity concrete with high volume fly ash, Proceeding of Korean Recycled Construction Resource Institute, 13(2), 22-25 [in Korean].
7 Choi, Y.W., Park, M.S. (2013). The application technology of concrete utilizing high volume fly ash, Magazine of RCR, 8(2), 13-16 [in Korean].   DOI
8 Jo, J.H. (2015). A Study on the Quality Properties of Multi Component Blended High Fluidity Concrete with CO2 Reduction, Master's Thesis, Semyung University.
9 KCI(KOREA CONCRETE INSTITUTE) (2010). Concrete and the Environment, Gimundang's Book, 32-41.
10 KCI(KOREA CONCRETE INSTITUTE) (2007). Concrete Structure Design Criteria, KOREA CONCRETE INSTITUTE.
11 Ministry of Environment (2014). Roadmap for the Country's Greenhouse Gas Reduction Goals, Relevant Ministries Joint Session Report.
12 Noh, D.H. (2005). Industrial sector to reduce greenhouse gas emissions and energy potential estimates, the cement industry, Journal of Energy Economic Research Conference, Research Reports, 2005(12).
13 Su, N., Miao, B. (2003). A new method for the mix design of medium strength flowing concrete with low cement content, Cement and Concrete Composites, 25(2), 215-222.   DOI