Abstract
This paper addresses the influence of fluidized bed combustion fly ash (FBCA) and further liquefying additives on the formation of structure and on the resulting properties of self-compacting grouts based on clay soil. In order to give the best account of the influence of individual input materials, tests were conducted on samples without the use of fluidized bed combustion fly ash. Clay soil (Cl) and cement were used as input materials, and fluidized bed combustion fly ash (10% and 30%) and a liquefying additive (sodium carbonate 0.1%) were used as an admixture. It has been experimentally determined that the use of 10% FBCA with clay soil is most suitable for achieving the optimal spillage parameter of self-compacting grout (class SF2 (660–750 mm) and class SF3 (760–850 mm)). It was also found that fluidized bed combustion fly ash and the liquefying additive have a significant influence on the formation of the structure of the self-compacting grout and, due to their presence, the compressive strength of the samples increased up to 0.5 MPa after seven days of hardening. The reaction between 0.1% of sodium carbonate and clay soil increased the electrokinetic potential, which reduced the viscosity of the self-compacting grout. Within the research work, the verification of the developed self-compacting grout in situ was also carried out.
Highlights
This paper researches the usability of clay soils that arise in the framework of excavation works of utilities
In the following text are the results of the parameters of clay soil
This paper was focused on the research and development of the reuse of clay soil Clay soil (Cl), originating from the UU excavation works in the form of self-compacting grout
Summary
This paper researches the usability of clay soils that arise in the framework of excavation works of utilities (underground utilities UU). In view of the incoming new legislative requirements, and especially under the Waste Framework Directive [4], the aim was to find a solution to the problem, by minimizing the formation of these soils, and in their use for subsequent building production [5]. This directive requires member states of the European Union to achieve a recycling target of 70% by 2020 [4]. It is not possible to reuse them in the construction and, they often end up in landfills, waste dumps, or dump areas
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