Detail publikace

Resistance of Concrete with Fine-Ground Granulated Slag Admixture to Sulphates and Acidic Aggressive Media

Originální název

Resistance of Concrete with Fine-Ground Granulated Slag Admixture to Sulphates and Acidic Aggressive Media

Anglický název

Resistance of Concrete with Fine-Ground Granulated Slag Admixture to Sulphates and Acidic Aggressive Media

Jazyk

en

Originální abstrakt

Blast-furnace slag granules may be used not only in mixed Portland cement making but it is also suitable as a partial substitution of Portland cement in concrete. Substitution of 20 - 50 % Portland cement by fine-ground blast-furnace slag granules increases concrete resistance to aggressive media in comparison with concrete made of mere Portland cement (CEM I). In the given case, concrete resistance to sulphates (concentration SO42- - 10 000 mg/l) and to acidic aggressive media (pH = 3) was monitored.

Anglický abstrakt

Blast-furnace slag granules may be used not only in mixed Portland cement making but it is also suitable as a partial substitution of Portland cement in concrete. Substitution of 20 - 50 % Portland cement by fine-ground blast-furnace slag granules increases concrete resistance to aggressive media in comparison with concrete made of mere Portland cement (CEM I). In the given case, concrete resistance to sulphates (concentration SO42- - 10 000 mg/l) and to acidic aggressive media (pH = 3) was monitored.

BibTex


@inproceedings{BUT23127,
  author="Jiří {Brožovský} and Tomáš {Fojtík} and Amos {Dufka}",
  title="Resistance of Concrete with Fine-Ground Granulated Slag Admixture to Sulphates and Acidic Aggressive Media",
  annote="Blast-furnace slag granules may be used not only in mixed Portland cement making but it is also suitable as a partial substitution of Portland cement in concrete. Substitution of 20 - 50 % Portland cement by fine-ground blast-furnace slag granules increases concrete resistance to aggressive media in comparison with concrete made of mere Portland cement (CEM I). In the given case, concrete resistance to sulphates (concentration SO42- - 10 000 mg/l) and to acidic aggressive media (pH = 3) was monitored.",
  address="Societatii Academice Matei - Teiu Botez",
  booktitle="Proceedings The 5TH International Symposium Compunational Civil Engineering 2007",
  chapter="23127",
  edition="1",
  institution="Societatii Academice Matei - Teiu Botez",
  year="2007",
  month="june",
  pages="750--758",
  publisher="Societatii Academice Matei - Teiu Botez",
  type="conference paper"
}