Electrical conductivity based characterization of plain and coarse glass powder modified cement pastes

Nathan Schwarz, Matthew DuBois, Narayanan Neithalath

Research output: Contribution to journalArticlepeer-review

109 Scopus citations


This paper describes the use of electrical conductivity to characterize plain and coarse glass powder modified cement pastes. It is observed that the glass powder addition facilitates improved hydration of the cement grains. For the proportions investigated in this study, and the particle size of glass powder, this advantage is negated by the reduced amount of hydration products, i.e., the dilution effect. The variation of electrical conductivity and its derivative with time can be related to the various phases in the microstructural development of the paste. It is observed from the time derivative of conductivity plots that the addition of glass powder results only in minor changes in the setting time of the pastes. Higher the glass powder content, higher the normalized conductivity (ratio of conductivity at a certain glass powder content to that of plain paste) at very early times, and then it falls to a value closer to or less than 1.0 at later times. A parallel model is used to represent effective conductivity as a function of the pore solution conductivity, porosity, and pore connectivity factor. The pore solution conductivity increases with increase in glass powder content. The porosity of the pastes reduces with increase in glass powder content at early ages and increases at later ages. A reduced pore connectivity factor is observed for pastes with higher glass powder content at later times. However, this does not imply increased volume of hydration products as is commonly interpreted for normal pastes, but the electrical conduction pathways are made more tortuous by the relatively large volume of un-reacted filler material in the pore structure.

Original languageEnglish (US)
Pages (from-to)656-666
Number of pages11
JournalCement and Concrete Composites
Issue number9
StatePublished - Oct 2007
Externally publishedYes


  • Cement paste
  • Characterization
  • Electrical properties
  • Glass powder
  • Hydration
  • Microstructure
  • Pore connectivity factor
  • Porosity

ASJC Scopus subject areas

  • Building and Construction
  • General Materials Science


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