Performance of Mortars Made Using Ternary Binders with Addition of Slag, Fly Ash and Limestone Exposed to a Real Environmental Condition Compatible with Exposure Class XC3.

Javier Ibáñez-Gosálvez,Teresa Real-Herraiz,José Marcos Ortega

doi:10.3390/ma14205937

Javier Ibáñez-Gosálvez, Teresa Real-Herraiz + Show 1 more

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https://doi.org/10.3390/ma14205937

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Journal: Materials (Basel, Switzerland)	Publication Date: Oct 10, 2021
Citations: 1	License type: CC BY 4.0

Affiliation: University of Alicante

Abstract

The use of eco-friendly cements prepared with ternary binders could contribute to improving the sustainability of cement production. However, their use for manufacturing commercial cements is very low, at least in Spain. The purpose of this research is to study the behavior in the long term of mortars made with ternary binders which incorporated ground granulated blast furnace slag, fly ash, and limestone, exposed to environmental conditions compatible with the specifications of exposure class XC3 of the Eurocode 2, compared to mortars without additions and mortars with binary binders. The exposure station was placed in an underground floor of a building used as a garage with circulation of vehicles and moderately high CO2 concentration. The ternary and binary binders verified the prescriptions of cement type CEM II/B. The microstructure was characterized using mercury intrusion porosimetry and electrical resistivity. Water absorption, diffusion coefficient, carbonation depth, mechanical strengths, and ultrasonic pulse velocity were determined. A loss of microstructure refinement with time was noted for all the analyzed binders, probably related to the development of carbonation and drying shrinkage. The binary mortars with slag and fly ash and the ternary binder which combined them showed the best mechanical performance at 250 days.

Highlights

The purpose of this research is to study the behavior in the long term of mortars made with ternary binders, which incorporated the additions of ground granulated blast furnace slag, fly ash, and limestone, exposed to environmental conditions compatible with the specifications of exposure class XC3, according to the Eurocode 2 [45], regarding their microstructure, durability, and mechanical properties
Between 28 and 250 days, a reduction in total porosity was observed for REF, S, F, and SL mortars, whereas it increased for L, SF, and
Between 28 and 250 days, a reduction in total porosity was observed for REF, S, F, and SL mortars, whereas it increased for L, SF, and FL mortars

Summary

Introduction

Reaching a more environmentally sustainable cement production is currently one of the main aims of the cement industry to increase its contribution to global sustainable development goals [1]. Between the different strategies for achieving this objective, the use of additions for replacing clinker has become increasingly popular [2,3,4]. The incorporation of these additions into blended cements provides environmental advantages, such as the reduction of CO2 emissions and the reduction of energy consumption throughout the cement manufacturing process [5], because a lower quantity of clinker is required

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