Abstract
Metakaolin (MK) prepared by the calcination of kaolin at 550 °C and fly ash (FA) from the combustion of black coal in a granulating boiler were used to prepare unfired ceramic bonding systems via the alkali activation process. A long-term stability of the mechanical properties of the prepared samples similar to the unfired ceramic systems was observed. The optimal metakaolin and fly ash ratio, the type of the activator (NaOH or water glass) and its concentration were evaluated after the hydration in: a) laboratory conditions; b) hydration box; and c) under the hydrothermal activation. Raw materials and the samples prepared by alkali activation process were characterized by XRD, XRF, TG/DTA, and FTIR methods. The mechanical properties of the prepared samples were tested using a compressive strength test after 2, 28 and 56 days of hydration. The compressive strengths of 16 and 24 MPa after 28 days of hydration were reached for FA samples activated with water glass. The alkali activation of MK was successful in the NaOH solution of the molar concentration above 5 M. The compressive strength values of metakaolin, activated hydrothermally and hydrated at laboratory conditions, reached 11.2 and 5.5 MPa, respectively, for 5 M activator of NaOH.
Highlights
Accepted: 9 February 2021With increasing demand, research activities in building and ceramic materials are being focused on the development of new environmentally friendly materials
Was observed that the compressive strength values of the prepared samples are strongly influenced by the method used for their preparation
fly ash (FA) originated during the combustion of black coal in the granulating boiler can be activated by water glass, in
Summary
Research activities in building and ceramic materials are being focused on the development of new environmentally friendly materials. These materials are called “eco-friendly materials”, since the priority the saving of primary natural resources. AAMs have the properties similar to the ceramic materials Their advantage is that lower temperature is necessary during their preparation in comparison to the traditional fired ceramics. AAMs are based on the activation of the materials with latent hydraulic properties (typically the materials with a high content of amorphous phase) by suitable activators. The most frequently used raw materials with latent hydraulic properties are Published: 13 February 2021
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