AI Article Synopsis
- The study explores the activation of stainless steel refining slag using alkali-silicate solutions to create a high-value cementitious binder, focusing on the impacts of different activators.
- Higher concentrations of alkali-silicate correlate with increased heat generation and greater compressive strength, with sodium-based activators showing better early strength than potassium ones, though long-term strengths remain comparable.
- Analysis reveals that using potassium activators results in lower heavy metal leaching compared to sodium, suggesting that alkali type and solution composition significantly affect hydration and mechanical properties, promoting recycling of slag that would typically be discarded.
Article Abstract
With an aim of producing high value cementitious binder, stainless steel refining slag containing a high amount of CaO in γ-dicalcium silicate form was activated with NaOH and Na-silicate as well as KOH and K-silicate solutions, followed by steam curing at 80 °C. Higher levels of alkali-silicate in the activating solution resulted in higher cumulative heat suggesting accelerated reaction kinetics. With respect to compressive strength, higher levels of alkali silicate resulted in higher strength and the mortars with Na activator were found to have higher early strength than the ones with K activator. The long term strength was found to be similar, regardless of the alkali metal. Thermogravimetric, QXRD and FTIR analyses showed an increase in the amount of reaction products (C-S-H type) over time, further confirming the reactivity of the crystalline slag. Batch leaching results showed lower leaching of heavy metals and metalloids with K activator compared to the Na activator. These results demonstrate that the alkali type and the ratio of hydroxide to silicates have a significant impact on the hydration and mechanical strength development of the stainless steel slag. The above findings can aid in the recycling and valorization of these type of slags which otherwise end up landfilled.
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| http://dx.doi.org/10.1016/j.jhazmat.2014.12.046 | DOI Listing |
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