Litcius/Paper detail

The influence of cement bypass dust composition on the properties of slag-based mortars

Ahmad Mahmoud Kobeiter Abiad, Kypros Pilakoutas, Maurizio Guadagnini, Hajime Kinoshita

2024Construction and Building Materials13 citationsDOIOpen Access PDF

Abstract

Research on sustainable alternatives to Ordinary Portland Cement aims to reduce global CO 2 emissions from cement production. Utilizing byproducts or waste materials to create sustainable binders is a promising approach. Cement bypass dust is being investigated as a potential activator of pozzolanic materials, however there is large variability in the composition of this dust and research is necessary to understand the differences for the potential application of the waste material. The objective of this work was to compare two bypass dusts where ternary and binary mortars of bypass dust (50 %, 30 %, 10 %, 0 % and by weight), cement (100 %, 80 %, 40 % and by weight), and blast furnace slag (50 %, 30 %, 10 % and 0 % by weight), were produced. Mortars were all ambient cured and a water to binder ratio of 0.6 was maintained for all mixes. The results showed that one bypass dust had a much higher free lime and chloride content, whereas the other had more calcite and sulphates. Compressive strengths of the 1:1 slag and sulphate rich bypass dust were of 18.6 MPa at 90 days, and lime rich bypass dust achieved 15.1 MPa. X-ray diffraction and thermogravimetric analysis revealed that sulphate rich bypass dust formed more ettringite, enhancing strength, while lime rich bypass dust formed more portlandite due to its lime content. Chemical shrinkage results showed volumetric expansion at early ages for both bypass dusts with lime rich bypass dust swelling up to 0.057 ml/g and sulphate rich bypass dust up to 0.015 ml/. Despite this, both bypass dust binders exhibited higher shrinkage strains over a 150-day period compared to cement, where sulphate rich and lime rich bypass dust had strain percentages of 0.225 % and 0.228 %, respectively. This work found the main differences between the composition of two bypass dusts, and it was found that these materials can be reused to fabricate cementless binders. • Cement bypass dust can be reused in slag and cement mortar. • Cement bypass dust leads to long term shrinkage in mortars. • Cement bypass dust successfully activates slag and achieves good strength. • Sulphate and calcite are important for properties of cement bypass dust mortars. • High quantities of cement bypass dust can be successfully reused in mortars.

Topics & Concepts

Slag (welding)MortarCementMaterials scienceMetallurgyComposition (language)Composite materialEnvironmental sciencePhilosophyLinguisticsConcrete and Cement Materials ResearchMagnesium Oxide Properties and ApplicationsInnovative concrete reinforcement materials