Ecoefficient Cementitious Materials with High Levels of Portland Cement Replacement Using Blast Furnace Slag: Fid-Bau Portal

Ecoefficient Cementitious Materials with High Levels of Portland Cement Replacement Using Blast Furnace Slag

Gonçalves Junior, Adilson Aparecido / Jussiani, Eduardo Inocente / Andrello, Avacir Casanova / Vanderlei, Romel Dias / Toralles, Berenice Martins

Abstract

The portland cement (PC) industry is responsible for approximately 7% of all carbon dioxide ( ${CO}_{2}$ ) emissions in the world. Blast furnace slag (BFS) has been increasingly used as a substitute for PC, due to the efficient disposal of steel industry waste and reductions in ${CO}_{2}$ emissions. The present work investigated the environmental benefits of cementitious materials with large volumes of BFS (up to 90% PC replacement for the S90 mixture) and the influence on porosity and compressive strength. By X-ray computed microtomography and mercury intrusion porosimetry, pore size distribution was assessed. Porosity was also evaluated by water absorption. The environmental impacts were investigated by analyzing the embodied ${CO}_{2}$ emissions ( ${ECO}_{2}$ ) and embodied energy (EE) by using life cycle assessment methodology. Reductions of around 40% in the compressive strength of S90 were found, while reductions in EE and ${ECO}_{2}$ were above 80%. The S90 showed higher porosity at the age of 28 days, but then promoted a more active pore closing effect over time, being nevertheless feasible for use in terms of porosity. The use of S90 is expected to increase durability due to its thinner porous matrix, and contribute to reducing environmental impact and advancing cleaner production.

Today, there is a global call to action to end poverty, protect the environment and climate, and ensure that people everywhere can enjoy peace and prosperity. Objectives set for the United Nations aim to help developing countries, like Brazil, achieve the 2030 Agenda for Sustainable Development. A highlight is given to “Sustainable Development Goal 9: Industry, Innovation and Infrastructure” (SDG 9), which aims to build resilient infrastructure, promote inclusive and sustainable industrialization, and foster innovation. The portland cement (PC) industry is responsible for approximately 7% of all carbon dioxide ( ${CO}_{2}$ ) emissions in the world. The study carried out here points to the feasibility of using blast furnace slag (BFS) to replace up to 90% of PC clinker, and demonstrates the environmental advantages in terms of reducing ${CO}_{2}$ emissions and energy consumption. In this context, the use of clinkers with higher concentrations of BFS, up to 90%, has emerged as a way to contribute to the sustainable development proposed by SDG 9.