Comparing Properties of Concrete Containing Electric Arc Furnace Slag and Granulated Blast Furnace Slag.

Jin-Young Lee,Jin-Seok Choi,Tian-Feng Yuan,Young-Soo Yoon,Denis Mitchell

doi:10.3390/ma12091371

Jin-Young Lee, Jin-Seok Choi + Show 3 more

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https://doi.org/10.3390/ma12091371

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Journal: Materials	Publication Date: Apr 27, 2019
Citations: 43	License type: CC BY 4.0

Affiliation: McGill University, Korea University

Abstract

For sustainable development in the construction industry, blast furnace slag has been used as a substitute for cement in concrete. In contrast, steel-making slag, the second largest by-product in the steel industry, is mostly used as a filler material in embankment construction. This is because steel-making slag has relatively low hydraulicity and a problem with volumetric expansion. However, as the quenching process of slag has improved recently and the steel making process is specifically separated, the properties of steel-making slag has also improved. In this context, there is a need to find a method for recycling steel-making slag as a more highly valued material, such as its potential use as an admixture in concrete. Therefore, in order to confirm the possibility of using electric arc furnace (EAF) oxidizing slag as a binder, a comparative assessment of the mechanical properties of concrete containing electric arc furnace oxidizing slag, steel-making slag, and granulated blast furnace (GBF) slag was performed. The initial and final setting, shrinkage, compressive and split-cylinder tensile strength of the slag concretes were measured. It was found that replacing cement with EAF oxidizing slag delayed the hydration reaction at early ages, with no significant problems in setting time, shrinkage or strength development found.

Highlights

The steel industry has consumed a great deal of natural materials and energy, with a significant amount of by-products being generated during the steel making process
It is well known that the substitution of granulated blast furnace (GBF) slag for cement improves the workability [28]
The standard penetration resistance test was carried out every hour to measure the initial and final setting times of the mixtures according to ASTM C403 [31]

Summary

Introduction

The steel industry has consumed a great deal of natural materials and energy, with a significant amount of by-products being generated during the steel making process. The main by-products of the steel industry, blast furnace (BF) slag and steel-making (SM) slag, can partially replace cement in concrete because of its potential hydraulicity [1,2,4,5,6,7,8,9]. The chemical composition of SM slag can be controlled by adjusting the steel making process. The process has been separated into an oxidizing process and a reducing process in order to desulfurize the steel.

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