Influence of silica fume on diffusivity in cement-based materials I. Experimental and computer modeling studies on cement pastes

D P Bentz, O M Jensen, A M Coats, F P Glasser

Research output: Contribution to journalArticle

184 Citations (Scopus)


Experimental and computer modeling studies are applied in determining the influence of silica fume on the microstructure and diffusivity of cement paste. It is suggested that silica fume modifies the inherent nanostructure of the calcium silicate hydrate (C-S-H) gel, reducing its porosity and thus increasing its resistance to diffusion of both tritiated water and chloride ions. Because the pores in the C-S-H are extremely fine, the relative reduction in diffusion depends on the specific diffusing species. Based on the NIST cement hydration and microstructural model, for tritiated water diffusion, the reduction in the diffusivity of the gel caused by silica fume is about a factor of five. For chloride ions, when a diffusivity value 25 times lower than that used for conventional high Ca/Si ratio C-S-H is assigned to the pozzolanic lower Ca/Si ratio C-S-H, excellent agreement is obtained between experimental chloride ion diffusivity data and results generated based on the NIST model, for silica fume additions ranging from 0% to 10%. For higher addition rates, the experimentally observed reduction in diffusivity is significantly greater than that predicted from the computer models, suggesting that at these very high dosages, the nanostructure of the pozzolanic C-S-H may be even further modified. Based on the hydration model, a percolation-based explanation of the influence of silica fume on diffusivity is proposed and a set of equations relating diffusivity to capillary porosity and silica fame addition rate is developed. A 10% addition of silica fume may result in a factor of 15 or mon reduction in chloride ion diffusion and could potentially lead to a substantial increase in the service life of steel-reinforced concrete exposed to a severe environment. (C) 2000 Elsevier Science Ltd. All rights reserved.

Original languageEnglish
Pages (from-to)953-962
Number of pages10
JournalCement and Concrete Research
Publication statusPublished - 2000


  • cement paste
  • diffusion
  • hydration
  • modeling
  • silica fume


Dive into the research topics of 'Influence of silica fume on diffusivity in cement-based materials I. Experimental and computer modeling studies on cement pastes'. Together they form a unique fingerprint.

Cite this