@article{Benhamouda_Castro-Gomes_Pereira-de-Oliveira_2020, title={The Effect of the Activator/Precursor Ratio on the Rheological Properties of the Alkali-activated Mining Waste Mud Paste}, volume={5}, url={https://knepublishing.com/index.php/KnE-Engineering/article/view/6906}, DOI={10.18502/keg.v5i5.6906}, abstractNote={<p>To determine the properties of paste, mortar or concrete, it is necessary to understand its rheological behaviour first. This study discusses the effect of the activator/precursor ratio on the rheological properties of the alkali-activated paste. The pastes consisted of a mix of 70 % of tungsten mining waste mud, 15% waste glass and 15% of metakaolin. This mix was activated by combining sodium hydroxide and sodium silicate. Five activator/precursor (a/p) ratios were studied: 0.37, 0.38, 0.39, 0.40 and 0.41. The result obtained shows that the rheology of the pastes is affected by the activator/precursor ratio. The rheological behaviour of the paste fits the Bingham model. The yield stress (τ<sub>0</sub>) and plastic viscosity (μ) increase inversely with the activator/precursor ratio (e.g. a/p=0.37 gives τ<sub>0</sub>=84.19 and μ=0.4185; a/p=0.41 gives τ<sub>0</sub>=30.389 and μ=0.2937). The workability increases proportionally with the activator/precursor ratio (e.g. a/p=0.37 gives a slump=133 mm; a/p=0.41 gives a slump=158 mm). The compressive strength decreases when the activator/precursor ratio increases (e.g. at 28 days for a/p=0.37, the compressive strength was 19.6 MPa; for a/p=0.41, the compressive strength was 13 MPa). Finally, the ideal ratios were 0.38 and 0.39.</p&gt;}, number={5}, journal={KnE Engineering}, author={Benhamouda, Abdelhakim and Castro-Gomes, João and Pereira-de-Oliveira, Luiz}, year={2020}, month={May}, pages={1–13} }