Lukáš Fiala scite author profile

The electrical properties of concrete are gaining their importance for the application in building construction. In this study, graphite powder was added to alkali-activated slag mortar as an electrically conductive filler in order to enhance the mortar’s conductive properties. The amount of graphite ranged from 1% to 30% of the slag mass. The effect of the graphite powder on the resistivity, capacitance, mechanical properties, and microstructure of the composite was investigated. Selected mixtures were then used for the testing of self-sensing properties under compressive loading. The results show that the addition of an amount of graphite equal to up to 10% of the slag mass improved the electrical properties of the alkali-activated slag. Higher amounts of filler did not provide any further improvement in electrical properties at lower AC frequencies but caused a strong deterioration in mechanical properties. The best self-sensing properties were achieved for the mixture with 10 wt% of graphite, but only at low compressive stresses of up to 6 MPa.

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Computational modelling of coupled water and salt transport in porous materials using diffusion–advection model

Pavlík

Fiala

Maděra

et al. 2011

Journal of the Franklin Institute

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Application of Effective Media Theory for Determination of Thermal Properties of Hollow Bricks as a Function of Moisture Content

et al. 2012

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Application of ceramic waste in brick blocks with enhanced acoustic properties

Fiala

Konrád

Fořt

et al. 2020

Journal of Cleaner Production

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Lukáš Fiala

Comparison of electrical and self-sensing properties of Portland cement and alkali-activated slag mortars

Electrical and Self-Sensing Properties of Alkali-Activated Slag Composite with Graphite Filler

Computational modelling of coupled water and salt transport in porous materials using diffusion–advection model

Application of Effective Media Theory for Determination of Thermal Properties of Hollow Bricks as a Function of Moisture Content

Application of ceramic waste in brick blocks with enhanced acoustic properties

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