Publication result detail

Laboratory testing of developed thermal insulation plasters on pillars built from masonry bricks

HROUDOVÁ, J.; SEDLMAJER, M.; PAŘÍLKOVÁ, J.; ZACH, J.

Original Title

Laboratory testing of developed thermal insulation plasters on pillars built from masonry bricks

English Title

Laboratory testing of developed thermal insulation plasters on pillars built from masonry bricks

Type

Paper in proceedings (conference paper)

Original Abstract

Based on the development of silicate-based thermal insulation materials performed thus far, the next stage of research involved observing the behaviour of these materials; mainly heat and moisture transport. This paper describes the initial part of research involving the construction of masonry pillars suitable for being plastered with the newly developed materials with the purpose to examine moisture transport in the thermal insulation plasters. Two methods were designed for the examination of hygrothermal behaviour; method of electrical impedance spectrometry (EIS) and determining water content using a capacitive hygrometer. The initial results have confirmed the expectation that moisture transport is a complicated process and it will be necessary to observe the characteristics over a long period of time. However, the final evaluation will contribute greatly to the development of energy-efficient materials using alternative raw material resources and chemical additives.

English abstract

Based on the development of silicate-based thermal insulation materials performed thus far, the next stage of research involved observing the behaviour of these materials; mainly heat and moisture transport. This paper describes the initial part of research involving the construction of masonry pillars suitable for being plastered with the newly developed materials with the purpose to examine moisture transport in the thermal insulation plasters. Two methods were designed for the examination of hygrothermal behaviour; method of electrical impedance spectrometry (EIS) and determining water content using a capacitive hygrometer. The initial results have confirmed the expectation that moisture transport is a complicated process and it will be necessary to observe the characteristics over a long period of time. However, the final evaluation will contribute greatly to the development of energy-efficient materials using alternative raw material resources and chemical additives.

Keywords

Thermal insulation plasters; lightweight aggregate; thermal conductivity, capillary absorption coefficient; moisture transport.

Key words in English

Thermal insulation plasters; lightweight aggregate; thermal conductivity, capillary absorption coefficient; moisture transport.

Authors

HROUDOVÁ, J.; SEDLMAJER, M.; PAŘÍLKOVÁ, J.; ZACH, J.

RIV year

2018

Released

21.02.2017

Publisher

Elsevier

Book

Procedia Engineering

ISBN

1877-7058

Periodical

Procedia Engineering

Volume

172C

State

United Kingdom of Great Britain and Northern Ireland

Pages from

377

Pages to

384

Pages count

8

BibTex

@inproceedings{BUT133080,
  author="Jitka {Peterková} and Martin {Sedlmajer} and Jana {Pařílková} and Jiří {Zach}",
  title="Laboratory testing of developed thermal insulation plasters on pillars built from masonry bricks",
  booktitle="Procedia Engineering",
  year="2017",
  journal="Procedia Engineering",
  volume="172C",
  pages="377--384",
  publisher="Elsevier",
  doi="10.1016/j.proeng.2017.02.043"
}