Geotechnical and Environmental Assessment of Blast Furnace Slag for Engineering Applications

• Published in: Materials Vol. 14; no. 20; p. 6029
• Main Authors: Sas, Wojciech, Dzięcioł, Justyna, Radzevičius, Algirdas, Radziemska, Maja, Dapkienė, Midona, Šadzevičius, Raimondas, Skominas, Rytis, Głuchowski, Andrzej
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 13.10.2021; MDPI
• Subjects: aggregate; Aggregates; anthropogenic; blast furnace slag; Blast furnace slags; Building materials; By products; Cement; Compacted soils; Compressing; compression; Compression index; Compression tests; Concrete construction; Construction industry; Construction materials; Cooling; Density; Engineering; Environmental assessment; Environmental impact; Environmental testing; Groundwater; Heavy metals; Human influences; Landfill; Mechanical properties; Moisture content; Natural resources; oedometric; Reinforced concrete; Slag; Soil compaction; Soil testing; Solid wastes; Sustainable development; Thermal degradation
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma14206029

The increasing demand for building materials in the road industry creates interest for a new source of high-quality aggregates. In order to conserve natural resources, more attention is focused on anthropogenic soils and industrial solid wastes. For the successful application of these types of soil, a series of geotechnical and environmental tests have to be conducted. A potential hazard in the reuse of wastes from thermal degradation in the construction industry, particularly in reinforced concrete (RC) construction, is the migration of heavy metals into the groundwater environment. In this article, a geotechnical assessment of blast furnace slag (BFS) properties is presented. We conducted a series of CBR, and oedometric tests to evaluate the feasibility of BFS application in earth construction. The oedometric test results show acceptable compression characteristics which are in the range of natural aggregates. The CBR shows that this material may be used as a pavement subbase. We also noticed the preconsolidation pressure phenomenon in both Proctor and vibro-compacted soil during the oedometric test. The compression index and recompression index value show that the compression characteristics are close to those of dense sand. Based on the results described in the article, blast furnace slag is a candidate for technological application and can become one of the elements of sustainable development by contributing to a reduction in the negative environmental impact of production and use of building materials.