Detail publikace

Aluminosilicate system based on alkali activation of industrial by-products reinforced with wollastonite microfibers

Originální název

Aluminosilicate system based on alkali activation of industrial by-products reinforced with wollastonite microfibers

Anglický název

Aluminosilicate system based on alkali activation of industrial by-products reinforced with wollastonite microfibers

Jazyk

en

Originální abstrakt

Portland cement-based products are the most commonly used building materials. However, it is well known that the production of OPC not only consumes significant amount of natural resources and energy but also releases high quantity of carbon dioxide (CO2) to the atmosphere. Purpose of this work is to develop material similar to Portland cement-based concrete, which would be convenient both in terms of energy and environmental friendliness. This article presents preparation, composition and properties of inorganic aluminosilicate polymer, called geopolymer, synthesized from an alkali activation of fly ash/slag mixtures. In the research, effects of different kinds of fly ash from Czech power plants and different dosage of slag and alkali activators that influence compressive strength of hardened geopolymer pastes were discussed. Relatively small flexural strength after 28 days was enhanced with wollastonite microfibers. The study of the microstructure was based on XRD and SEM-EDX analyses.

Anglický abstrakt

Portland cement-based products are the most commonly used building materials. However, it is well known that the production of OPC not only consumes significant amount of natural resources and energy but also releases high quantity of carbon dioxide (CO2) to the atmosphere. Purpose of this work is to develop material similar to Portland cement-based concrete, which would be convenient both in terms of energy and environmental friendliness. This article presents preparation, composition and properties of inorganic aluminosilicate polymer, called geopolymer, synthesized from an alkali activation of fly ash/slag mixtures. In the research, effects of different kinds of fly ash from Czech power plants and different dosage of slag and alkali activators that influence compressive strength of hardened geopolymer pastes were discussed. Relatively small flexural strength after 28 days was enhanced with wollastonite microfibers. The study of the microstructure was based on XRD and SEM-EDX analyses.

BibTex


@inproceedings{BUT34580,
  author="Lukáš {Kalina} and Jiří {Másilko} and Jan {Koplík} and František {Šoukal}",
  title="Aluminosilicate system based on alkali activation of industrial by-products reinforced with wollastonite microfibers",
  annote="Portland cement-based products are the most commonly used building materials. However, it is well known that the production of OPC not only consumes significant amount of natural resources and energy but also releases high quantity of carbon dioxide (CO2) to the atmosphere. Purpose of this work is to develop material similar to Portland cement-based concrete, which would be convenient both in terms of energy and environmental friendliness. This article presents preparation, composition and properties of inorganic aluminosilicate polymer, called geopolymer, synthesized from an alkali activation of fly ash/slag mixtures. In the research, effects of different kinds of fly ash from Czech power plants and different dosage of slag and alkali activators that influence compressive strength of hardened geopolymer pastes were discussed. Relatively small flexural strength after 28 days was enhanced with wollastonite microfibers. The study of the microstructure was based on XRD and SEM-EDX analyses.",
  address="Aalborg University",
  booktitle="12th International Inorganic-Bonded Fiber Composites Conference",
  chapter="34580",
  howpublished="print",
  institution="Aalborg University",
  year="2010",
  month="september",
  pages="316--320",
  publisher="Aalborg University",
  type="conference paper"
}