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Research article
First published January 1999

Concrete Capillary Porosity as It Relates to Durability of Pavements Built with Alkali-Silica-Reactive Aggregates

Nancy M. WhitingView all authors and affiliations
Volume 1668, Issue 1
https://doi.org/10.3141/1668-14

Abstract

Several concrete pavements have been constructed in southwestern Minnesota using aggregates that recently have tested as being potentially deleteriously alkali-silica reactive. Standard ASTM test procedures were used. Most of these pavements fail to meet their design life. However, the rate of deterioration varies. Six pavement sites varying in age and performance were selected for comparison. Alkali-silica gel is present in all six pavements, even in the 36-year-old pavement still in good condition. Similar aggregate types were used for all six pavements. The coarse aggregate was a low-grade metamorphic quartzite, and the fine aggregate was a glacial sand obtained from various local sources. The relative capillary porosity of the concrete paste was examined using fluorescent dye epoxy impregnated with thin-section samples from each pavement site. Preliminary results suggest that the capillary porosity is linked to the durability of the concrete pavement. The best-performing concretes had a homogeneous capillary porosity that was moderate to low, and the poorer-performing concretes had paste with a capillary porosity that varied from high to low.

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References

1. Ojakangas R. W., and Weber R. E. Petrography and Paleocurrents of the Lower Proterozoic Sioux Quartzite, Minnesota, and South Dakota. In Shorter Contributions to Geology of the Sioux Quartzite (Early Proterozoic) Southwestern Minnesota, Report 32, Minnesota Geological Survey, 1984, pp. 1–15.
Google Scholar
2. Whiting N. M., and Peterson K. W. An Ongoing Pathological Study of the Concrete Pavements in Minnesota. Proc., 20th International Conference on Cement Microscopy, Duncanville, Tex., 1998, pp. 84–102.
Google Scholar
3. McConnell D., Mielenz R. C., Holland W. Y., and Greene K. T. Petrology of Concrete Affected by Cement-Aggregate Reaction. In Application of Geology to Engineering Practice, Berkey Volume, Geological Society of America, New York, 1950, pp. 225–250.
Crossref
Google Scholar
4. Jakobsen U. H. Understanding the Features Observed in Concrete Using Various Fluorescence Impregnation Techniques. Proc., 19th International Conference on Cement Microscopy, Duncanville, Tex., 1998, pp. 281–301.
Google Scholar
5. Jakobsen U. H., Johansen V., and Thaulow N. Optical Microscopy—A Primary Tool in Concrete Examination. Proc., 20th International Conference on Cement Microscopy, Duncanville, Tex., 1997, pp. 275–294.
Google Scholar
6. Walker N. H., and Marshall B. F. Methods and Equipment Used in Preparing and Examining Fluorescent Ultrathin Sections of Portland Cement Concrete. Cement, Concrete and Aggregates, Vol. 1, No. 1, 1979, pp. 3–9.
Crossref
Google Scholar
7. Jepsen B. B., and Christensen P. Petrographic Examination of Hardened Concrete. Bulletin of the International Association of Engineering Geology, No. 39, 1989, pp. 99–103.
Google Scholar
8. Andersen K. T., and Thaulow N. The Study of Alkali-Silica Reactions in Concrete by the Use of Fluorescent Thin-Sections. In Petrography Applied to Concrete and Concrete Aggregates, ASTM, STP 1061, pp. 71–89.
Google Scholar
9. Neville A. M. Properties of Concrete, Fourth and Final Edition. John Wiley & Sons, Inc., New York, 1997.
Google Scholar

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Published In

Volume 1668, Issue 1
Pages: 91 - 96
Article first published: January 1999
Issue published: January 1999

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© 1999 National Academy of Sciences.
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Nancy M. Whiting
Minnesota Department of Transportation, Office of Materials and Road Research, Geology Unit, 1400 Gervais Ave., Maplewood, MN 55109
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