Improving the mechanical properties of rapid air cooled ladle furnace slag powder by gypsum

Improving the mechanical properties of rapid air cooled ladle furnace slag powder by gypsum

•Ladle furnace slag, the waste from steelmaking industry can be recycled.•Rapidly air cooled ladle furnace slag is a rapid hardening binder.•Rapid air cooling method prevent expansion of the steel slag.•Rapidly air cooled ladle furnace slag produce hydrogarnet during the hydration. The aim of this r...

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Bibliographic Details
Published in:Construction & building materials Vol. 127; pp. 93 - 101
Main Authors: Kim, Jin-Man, Choi, Sun-Mi, Han, Dongyeop
Format: Journal Article
Language:English
Published: Elsevier Ltd 30-11-2016
Elsevier B.V
Subjects:
Analysis
C12A7
Ettringite
Gypsum
Hydrogarnet
Lime
Mechanical properties
Rapidly cooled ladle furnace slag
Steel
Steel slag
Upcycling
United States
Hydrogarnet
Ettringite
Rapidly cooled ladle furnace slag
C12A7
Upcycling
Steel slag
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Summary:•Ladle furnace slag, the waste from steelmaking industry can be recycled.•Rapidly air cooled ladle furnace slag is a rapid hardening binder.•Rapid air cooling method prevent expansion of the steel slag.•Rapidly air cooled ladle furnace slag produce hydrogarnet during the hydration. The aim of this research is supporting the recycling of ladle furnace slag from steel making industry. Ladle furnace slag is generally treated as a waste because of its volume instability with free-CaO and free-MgO crystalized during the slow cooling process. Regarding this by-product, from the previous research, rapid cooling technique with high pressured air was introduced, and rapid hardening properties of rapidly cooled ladle furnace slag (RCLFS) was introduced. In spite of outstanding rapid hardening performance, because of hydrogarnet, the main hydration product of main component for rapid reaction, RCLFS has low compressive strength and severe shrinkage as the drawbacks. In this research, to resolve these drawbacks, gypsum was incorporated and induced formation of ettringite. By using modified Bogue equation, the required appropriate amount of gypsum was determined as 37% of RCLFS weight, and a series of experiments were conducted to prove it. From the results of the experiment, when the RCLFS contained gypsum, ettringite was generated and due to the ettringite, compressive strength was continuously increased with decreased porosity. This result is expected to contribute to recycle the RCLFS as a rapid hardening material with more stable performances.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2016.09.102