Detail publikace
Lime-based plasters with combined expanded clay-silica aggregate: Microstructure, texture and engineering properties.
KOŇÁKOVÁ, D. ČÁCHOVÁ, M. VEJMELKOVÁ, E. KEPPERT, M. JERMAN, M. BAYER, P. ROVNANÍKOVÁ, P. ČERNÝ, R.
Originální název
Lime-based plasters with combined expanded clay-silica aggregate: Microstructure, texture and engineering properties.
Anglický název
Lime-based plasters with combined expanded clay-silica aggregate: Microstructure, texture and engineering properties.
Jazyk
en
Originální abstrakt
The article deals with lime-pozzolana plasters with a lightweight aggregate content. Plaster mortars were prepared with a different ratio of quartz sand and lightweight expanded clay aggregate. Mechanical properties, thermal and hygroscopic properties, durability, microstructure and texture were determined in mortar. Lightweight lime-pozzolana plasters have a very good potential for practical use.
Anglický abstrakt
The article deals with lime-pozzolana plasters with a lightweight aggregate content. Plaster mortars were prepared with a different ratio of quartz sand and lightweight expanded clay aggregate. Mechanical properties, thermal and hygroscopic properties, durability, microstructure and texture were determined in mortar. Lightweight lime-pozzolana plasters have a very good potential for practical use.
Dokumenty
BibTex
@article{BUT138390,
author="Dana {Koňáková} and Monika {Čáchová} and Eva {Vejmelková} and Martin {Keppert} and Miloš {Jerman} and Patrik {Bayer} and Pavla {Rovnaníková} and Robert {Černý}",
title="Lime-based plasters with combined expanded clay-silica aggregate: Microstructure, texture and engineering properties.",
annote="The article deals with lime-pozzolana plasters with a lightweight aggregate content. Plaster mortars were prepared with a different ratio of quartz sand and lightweight expanded clay aggregate. Mechanical properties, thermal and hygroscopic properties, durability, microstructure and texture were determined in mortar. Lightweight lime-pozzolana plasters have a very good potential for practical use.",
address="Elsevier",
chapter="138390",
howpublished="online",
institution="Elsevier",
number="8",
volume="83",
year="2017",
month="august",
pages="374--383",
publisher="Elsevier",
type="journal article in Web of Science"
}