David Průša scite author profile

The combustibility of natural wood presents a negative impact for using this material in buildings. Timber elements can be cladded with boards made of non-combustible materials. This study represents a group of options for increasing the resistance of timber against the effects of fire and the possibility of slowing down the effect of thermal degradation of wood. The aim of this study is focused on an experimental testing of structures with timber elements protected by cement fibre boards as a non-combustible fire retardant. Cement fibre boards are fibre-reinforced composite materials used for systems of dry constructions. These boards present the highest degree of fire reaction class (A1). The behaviour of the structure, loaded by the effects of fire, was monitored during the experiment. The specimen was tested with reduced dimensions. The temperature loading corresponded to the procedure according to the standards. The final fire resistant (FR) results were evaluated in accordance with the requirements for the selected limit states of FR. This was assessed based on the measured temperatures and the whole condition of the tested specimen. The specimen fulfilled the fire-separating function of the structure for the classification times.

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Effect of Microwave Radiation on the Compressive Strength of Solid Ceramic Brick

Průša

Šuhajda

Žajdlík

et al. 2023

Buildings

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Microwave radiation is widely utilized in construction practice, especially for drying building materials, remediating damp masonry, or sterilization of biotic pests that have infested building structures. The available scientific and technical literature reports that certain materials exposed to microwave radiation do not change their physical and mechanical properties, although this has not yet been adequately verified. This paper builds on many years of research in the area, adding to and refining existing information, providing new insights into the mechanical and physical properties of commonly available building materials that have been exposed to controlled microwave radiation, and comparing them with reference values. The experimental research on a set of clay brick samples is carried out using tests according to European standards, and it focuses on the effect of microwave radiation on compressive strength and water absorption. The experimental samples were compared to reference samples that had not been subjected to prolonged exposure to moisture and were subsequently treated with microwave radiation for dehumidification.

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Reflectance expression of exterior plasters

Průša

Šťastník

Šuhajda

et al. 2020

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Thermoreflective insulation in building industry

Průša

2019

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David Průša

The possibilities of using microwave radiation to accelerate the solidification of mixtures consisting of a polymer matrix binder and a waste thermal insulation filler

Medium-Scale Fire Resistance Testing of Timber Structures with Composite Cement Fibre Materials

Effect of Microwave Radiation on the Compressive Strength of Solid Ceramic Brick

Reflectance expression of exterior plasters

Thermoreflective insulation in building industry

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