Waste-Based Geopolymer Construction Materials

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Standard

Waste-Based Geopolymer Construction Materials. / Ratz, Bettina; Sedlazeck, Klaus Philipp; Sattler, Theresa Magdalena et al.
13. Wissenschaftskongress: Kreislauf- und Ressourcenwirtschaft. 13. Aufl. Wien: Innsbruck Univ. Press, 2024. S. 381-385.

Publikationen: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Konferenzband

Harvard

Ratz, B, Sedlazeck, KP, Sattler, TM, Steindl, FR, Raič, S, Rudic, O & Grengg, C 2024, Waste-Based Geopolymer Construction Materials. in 13. Wissenschaftskongress: Kreislauf- und Ressourcenwirtschaft. 13 Aufl., Innsbruck Univ. Press, Wien, S. 381-385, 13. DGAW-Wissenschaftskongress: Abfall- und Ressourcenwirtschaft , Wien, Österreich, 15/02/24. https://doi.org/10.15203/99106-120-5

APA

Ratz, B., Sedlazeck, K. P., Sattler, T. M., Steindl, F. R., Raič, S., Rudic, O., & Grengg, C. (2024). Waste-Based Geopolymer Construction Materials. In 13. Wissenschaftskongress: Kreislauf- und Ressourcenwirtschaft (13 Aufl., S. 381-385). Innsbruck Univ. Press. https://doi.org/10.15203/99106-120-5

Vancouver

Ratz B, Sedlazeck KP, Sattler TM, Steindl FR, Raič S, Rudic O et al. Waste-Based Geopolymer Construction Materials. in 13. Wissenschaftskongress: Kreislauf- und Ressourcenwirtschaft. 13 Aufl. Wien: Innsbruck Univ. Press. 2024. S. 381-385 doi: 10.15203/99106-120-5

Author

Ratz, Bettina ; Sedlazeck, Klaus Philipp ; Sattler, Theresa Magdalena et al. / Waste-Based Geopolymer Construction Materials. 13. Wissenschaftskongress: Kreislauf- und Ressourcenwirtschaft. 13. Aufl. Wien : Innsbruck Univ. Press, 2024. S. 381-385

Bibtex - Download

@inproceedings{ae4c716b85984a5abc45c71ae51c1210,
title = "Waste-Based Geopolymer Construction Materials",
abstract = "The building and construction industry generates enormous amounts CO2 emissions. To counteract this impact and to reduce the quantity of landfilled mineral waste in Austria,the Christian Doppler Laboratory GECCO2 attempts to generate highly resistant environmentally friendly waste-based geopolymer building and construction materials. These geopolymers, also referred to as alkali-activated materials, are utilized based on the specific material properties. One example is their use in chemically aggressive waste systems. Therefore, potential unexploited Austrian mineral waste and secondary raw material (SRM) streams are examined by various chemical, mineralogical and environmental characterization methods and techniques. The results are then used to compare the mineralogical and geochemical patterns of the waste and SRMs. These patterns define respective material categories and enable the development of a portfolio of Austrian mineral waste materials and SRMs. Subsequently, their suitability and recycling potential through geopolymerization are reviewed.",
author = "Bettina Ratz and Sedlazeck, {Klaus Philipp} and Sattler, {Theresa Magdalena} and Steindl, {Florian Roman} and Sara Rai{\v c} and Ognjen Rudic and Cyrill Grengg",
year = "2024",
month = feb,
day = "14",
doi = "10.15203/99106-120-5",
language = "English",
pages = "381--385",
booktitle = "13. Wissenschaftskongress: Kreislauf- und Ressourcenwirtschaft",
publisher = "Innsbruck Univ. Press",
edition = "13",
note = "13. DGAW-Wissenschaftskongress: Abfall- und Ressourcenwirtschaft ; Conference date: 15-02-2024 Through 16-02-2024",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Waste-Based Geopolymer Construction Materials

AU - Ratz, Bettina

AU - Sedlazeck, Klaus Philipp

AU - Sattler, Theresa Magdalena

AU - Steindl, Florian Roman

AU - Raič, Sara

AU - Rudic, Ognjen

AU - Grengg, Cyrill

PY - 2024/2/14

Y1 - 2024/2/14

N2 - The building and construction industry generates enormous amounts CO2 emissions. To counteract this impact and to reduce the quantity of landfilled mineral waste in Austria,the Christian Doppler Laboratory GECCO2 attempts to generate highly resistant environmentally friendly waste-based geopolymer building and construction materials. These geopolymers, also referred to as alkali-activated materials, are utilized based on the specific material properties. One example is their use in chemically aggressive waste systems. Therefore, potential unexploited Austrian mineral waste and secondary raw material (SRM) streams are examined by various chemical, mineralogical and environmental characterization methods and techniques. The results are then used to compare the mineralogical and geochemical patterns of the waste and SRMs. These patterns define respective material categories and enable the development of a portfolio of Austrian mineral waste materials and SRMs. Subsequently, their suitability and recycling potential through geopolymerization are reviewed.

AB - The building and construction industry generates enormous amounts CO2 emissions. To counteract this impact and to reduce the quantity of landfilled mineral waste in Austria,the Christian Doppler Laboratory GECCO2 attempts to generate highly resistant environmentally friendly waste-based geopolymer building and construction materials. These geopolymers, also referred to as alkali-activated materials, are utilized based on the specific material properties. One example is their use in chemically aggressive waste systems. Therefore, potential unexploited Austrian mineral waste and secondary raw material (SRM) streams are examined by various chemical, mineralogical and environmental characterization methods and techniques. The results are then used to compare the mineralogical and geochemical patterns of the waste and SRMs. These patterns define respective material categories and enable the development of a portfolio of Austrian mineral waste materials and SRMs. Subsequently, their suitability and recycling potential through geopolymerization are reviewed.

U2 - 10.15203/99106-120-5

DO - 10.15203/99106-120-5

M3 - Conference contribution

SP - 381

EP - 385

BT - 13. Wissenschaftskongress: Kreislauf- und Ressourcenwirtschaft

PB - Innsbruck Univ. Press

CY - Wien

T2 - 13. DGAW-Wissenschaftskongress: Abfall- und Ressourcenwirtschaft

Y2 - 15 February 2024 through 16 February 2024

ER -