Sulfate Resistance of Concrete Using Blended Cements or Supplementary Cementitious Materials
This report briefly discusses the mechanism of sulfate attack and the role of selected supplementary cementitious materials (SCMs) in reducing this attack in concrete. The relationship between sulfate resistance and the chemical, physical, and mineralogical composition of SCMs has been elucidated. Based on a number of bench-scale studies, several of models predicting sulfate resistance in fly ash-containing concretes have been cited and discussed. The report has also discussed sulfate resistance of concrete that contained SCMs interground and optimized at the cement plant as compared to that mixed at the concrete batch plant. From the very limited data available on the subject, use of interground SCMs with clinker have shown improved sulfate resistance for concrete, primarily attributed to finer and better particle size distribution that enhance the reactivity and reduce the permeability in concrete. The report also recommends that the optimization of sulfate should be based on 3-day strength instead of 1-day strength as in ASTM C 563. This may require a higher sulfate addition that can potentially improve sulfate resistance as the porosity of the system would be markedly reduced.
- Record URL:
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Corporate Authors:
5420 Old Orchard Road
Skokie, IL United States 60077 -
Authors:
- Bhatty, J
- Taylor, P
- Publication Date: 2006
Language
- English
Media Info
- Media Type: Web
- Features: Figures; References; Tables;
- Pagination: 21p
Subject/Index Terms
- TRT Terms: Cement; Chemical reactivity; Clinkers; Concrete; Concrete mixing; Concrete plants; Fineness; Fly ash; Optimization; Permeability; Porosity; Sulfate resisting cement; Sulfates
- Candidate Terms: Blended cement
- Uncontrolled Terms: Cement plants; Particle size distribution; Sulfate resistance
- Subject Areas: Highways; Materials; I32: Concrete;
Filing Info
- Accession Number: 01041381
- Record Type: Publication
- Report/Paper Numbers: PCA R&D Serial No. 2916a
- Files: TRIS
- Created Date: Jan 30 2007 1:29PM