Application and Verification of Physical-Mechanical Properties of Modified Clay Plaster by Silicates

Tereza Majstríková; Jana Boháčová; Jakub Hapl

doi:10.4028/www.scientific.net/SSP.296.186

Paper Titles

Evaluation of Microstructure, Phase Composition and Hardness of Alternative Abradable Ceramic Coating Systems Produced by Means of Atmospheric Plasma Spraying
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Self-Sensing Properties of Alkali-Activated Slag Composite with Carbon Black during Bending Test
p.167

The Impact of Fly Ash after SNCR Treated with Tannin-Based Products on AAC Production
p.173

Influence of Fly Ash Addition in the Raw Mixture on Synthesis and Properties of Forsterite
p.180

Application and Verification of Physical-Mechanical Properties of Modified Clay Plaster by Silicates
p.186

The Influence of Al₂O₃ Microparticles on the Pore Structure of Fired Clay
p.197

Utilization of CaO for Improvement of Durability of Vacuum Insulating Panels (VIP)
p.203

Preparation and Verification of Properties of Alkali-Activated Composite
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Flow Erosion Resistance of Concrete - Interaction of High-Speed Water Jet and Concrete
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Application and Verification of Physical-Mechanical Properties of Modified Clay Plaster by Silicates

Abstract:

Clay plasters have been used extensively in the past. Later, these plasters were replaced with more modern materials. In recent years, however, they have come back and are being used primarily for new constructions. The interest in ecological constructions and natural materials was significantly influenced not only by experts but also by ordinary users. A significant disadvantage of clay plasters is poor durability in the exterior environment and in contact with water in the liquid state where the part of the clay product is leached. The paper deals with the modification of clay plasters with silicate-based hydrophobic agents. The aim of this experiment is to improve the durability of these plasters and to extend their application both indoors and outdoors while maintaining typical advantageous properties.

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Periodical:

Solid State Phenomena (Volume 296)

Pages:

186-196

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.296.186

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Online since:

August 2019

Authors:

Tereza Majstríková, Jana Boháčová*, Jakub Hapl

Keywords:

Clay Plaster, Hydrophobization, Mechanical Properties, Modifications, Moisture, Mortar, Physical Properties

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