Detail publikace
Biochemically modified silicate water proofing for concrete surfaces.
ROVNANÍKOVÁ, P. SVITÁK, O. BAYER, P. KERŠNER, Z.
Originální název
Biochemically modified silicate water proofing for concrete surfaces.
Anglický název
Biochemically modified silicate water proofing for concrete surfaces.
Jazyk
en
Originální abstrakt
A biochemically modified sodium silicate solution forms a waterproofing layer in a concrete surface that provides long-term durability against water and salt solutions. It penetrates into concrete and reacts with calcium hydroxide and water to form a calcium silicate gel complex in cracks and pores. Properties of the surface waterproofing layer such as compressive, tensile strengths and the cumulative volume of pores are described.
Anglický abstrakt
A biochemically modified sodium silicate solution forms a waterproofing layer in a concrete surface that provides long-term durability against water and salt solutions. It penetrates into concrete and reacts with calcium hydroxide and water to form a calcium silicate gel complex in cracks and pores. Properties of the surface waterproofing layer such as compressive, tensile strengths and the cumulative volume of pores are described.
Dokumenty
BibTex
@inproceedings{BUT20459,
author="Pavla {Rovnaníková} and Oldřich {Sviták} and Patrik {Bayer} and Zbyněk {Keršner}",
title="Biochemically modified silicate water proofing for concrete surfaces.",
annote="A biochemically modified sodium silicate solution forms a waterproofing layer in a concrete surface that provides long-term durability against water and salt solutions. It penetrates into concrete and reacts with calcium hydroxide and water to form a calcium silicate gel complex in cracks and pores. Properties of the surface waterproofing layer such as compressive, tensile strengths and the cumulative volume of pores are described.",
address="Žilinská univerzita v Žilině",
booktitle="Concrete and concrete structures",
chapter="20459",
institution="Žilinská univerzita v Žilině",
year="2005",
month="october",
pages="204--209",
publisher="Žilinská univerzita v Žilině",
type="conference paper"
}