Detail publikace
Properties of alkali-activated aliminosilicate composite after thermal treatment
ROVNANÍK, Pavel ROVNANÍKOVÁ, Pavla BAYER, Patrik
Originální název
Properties of alkali-activated aliminosilicate composite after thermal treatment
Anglický název
Properties of alkali-activated aliminosilicate composite after thermal treatment
Jazyk
en
Originální abstrakt
The investigation of the properties of alkali-activated aluminosilicate composite after exposure to high temperatures is reported in the present paper. The specimens were composed of finely ground blast furnace slag and dried sodium silicate as an activator. The heat-resistant mixture of vermiculite and electrical porcelain in volume ratio 30/70 was used as an aggregate. The specimens were tested after exposure to temperatures from 100 to 1200 C and microstructure, porosity and 28-days flexural and compressive strengths were obtained.
Anglický abstrakt
The investigation of the properties of alkali-activated aluminosilicate composite after exposure to high temperatures is reported in the present paper. The specimens were composed of finely ground blast furnace slag and dried sodium silicate as an activator. The heat-resistant mixture of vermiculite and electrical porcelain in volume ratio 30/70 was used as an aggregate. The specimens were tested after exposure to temperatures from 100 to 1200 C and microstructure, porosity and 28-days flexural and compressive strengths were obtained.
Dokumenty
BibTex
@inproceedings{BUT15573,
author="Pavel {Rovnaník} and Patrik {Bayer} and Pavla {Rovnaníková}",
title="Properties of alkali-activated aliminosilicate composite after thermal treatment",
annote="The investigation of the properties of alkali-activated aluminosilicate composite after exposure to high temperatures is reported in the present paper. The specimens were composed of finely ground blast furnace slag and dried sodium silicate as an activator. The heat-resistant mixture of vermiculite and electrical porcelain in volume ratio 30/70 was used as an aggregate. The specimens were tested after exposure to temperatures from 100 to 1200 C and microstructure, porosity and 28-days flexural and compressive strengths were obtained.",
address="Brno University of Technology",
booktitle="Non-Traditional Cement & Concrete II",
chapter="15573",
institution="Brno University of Technology",
year="2005",
month="january",
pages="48--54",
publisher="Brno University of Technology",
type="conference paper"
}