• Title of article

    Chromate Ion Transfer Through Mortar by Accelerated Migration Method

  • Author/Authors

    Bakhshi ، N. - Shahid Bahonar University of Kerman , Sarrafi ، A. - Shahid Bahonar University of Kerman , Ramezanian pour ، A.A. - Amirkabir University of Technology

  • Pages
    10
  • From page
    3
  • To page
    12
  • Abstract
    Chromium (VI) is a highly toxic heavy metal which may be present in cementitious materials (CM) within its constituting elements or external sources and could alter the structure of CM and reduce its compressive strength. Therefore penetration of chromium is an important consideration in environmental engineering concrete structures. For estimating diffusivity of chromium (chromate ion) in cementitious materials, this paper presents an accelerated migration test method for determining the nonsteadystate migration coefficient following the simplified NernstPlanck equation. Likewise, the influence of watertocement ratio (w/c), the applied voltage the chromium binding capacity of cement mortar specimen (CMS) and the realistic concentration profile was investigated. For calculation of migration coefficient, the color reagent diphenylamine sulfonate was identified to determine the penetration depth of chromium into the CMS visually. The concentration of chromium was estimated to be about 0.025 percent (wt of CMS) at the discolored border region, and a drop of potential about 3.4 volts was derived. The changes in the microstructure of the CMS due to chromium migration testing were studied. The migration coefficient of CMS obtained between 1.06×1012 m2/s to 3.25×1012 m2/s. The w/c of about 0.50 has the highest migration coefficient. The realistic chromium concentration profile in the migration test has a gradual front, and a quadratic curve obeys.
  • Keywords
    chromate ion , cementitious materials , migration coefficient , profile
  • Journal title
    AUT Journal of Civil Engineering
  • Serial Year
    2019
  • Journal title
    AUT Journal of Civil Engineering
  • Record number

    2461770