Detail publikace

SELF-SENSING PROPERTIES OF ALKALI-ACTIVATED SLAG COMPOSITE WITH CARBON NANOTUBES

ROVNANÍK, P. MÍKOVÁ, M. KUSÁK, I. SCHMID, P. TOPOLÁŘ, L.

Originální název

SELF-SENSING PROPERTIES OF ALKALI-ACTIVATED SLAG COMPOSITE WITH CARBON NANOTUBES

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

angličtina

Originální abstrakt

Conductive concrete is produced by addition of conductive filler to ordinary concrete. Electrically conductive concrete allows analysing stress and strain variation in structures by means of resistivity measurements. The study of self-sensing properties of conductive concrete is now of great importance to its application in civil engineering. Since there is very limited information about electrical properties of alkali-activated materials as alternative binders to Portland cement, this paper presents the study on basic electrical and self-sensing properties in compression of alkali-activated slag composite with carbon nanotubes as conductive filler. The results showed that addition of carbon nanotubes reduced the electrical resistance of alkali-activated slag, however, it did not improve its sensing properties.

Klíčová slova

alkali activation; slag; carbon nanotubes; electrical resistance; sensing properties

Autoři

ROVNANÍK, P.; MÍKOVÁ, M.; KUSÁK, I.; SCHMID, P.; TOPOLÁŘ, L.

Vydáno

24. 10. 2018

Nakladatel

Rilem Publications S.A.R.L.

Místo

Paris, France

ISBN

978-2-35158-202-2

Kniha

SynerCrete '18 "Interdisciplinary Approaches for Cement-based Materials and Structural Concrete: Synergizing expertise and Bridging Scales of Space and Time"

Strany od

473

Strany do

478

Strany počet

6

BibTex

@inproceedings{BUT150843,
  author="Pavel {Rovnaník} and Maria {Míková} and Ivo {Kusák} and Pavel {Schmid} and Libor {Topolář}",
  title="SELF-SENSING PROPERTIES OF ALKALI-ACTIVATED SLAG COMPOSITE WITH CARBON NANOTUBES",
  booktitle="SynerCrete '18  {"}Interdisciplinary Approaches for Cement-based Materials and Structural Concrete: Synergizing  expertise and Bridging Scales of Space and Time{"}",
  year="2018",
  pages="473--478",
  publisher="Rilem Publications S.A.R.L.",
  address="Paris, France",
  doi="10.5281/zenodo.1405563",
  isbn="978-2-35158-202-2"
}