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Investigation of Sustainable Geopolymer Composite Using Automatic Identification Technology

Author

Listed:
  • Marcel Behun

    (Institute of Earth Resources, Faculty of Mining, Ecology, Process Control and Geotechnologies, The Technical University of Kosice, Letna 9, 04200 Kosice, Slovakia)

  • Patrik Kascak

    (Department of Industrial Engineering and Informatics, Faculty of Manufacturing Technologies with the seat in Presov, The Technical University of Kosice, Bayerova 1, 08001 Presov, Slovakia)

  • Matej Hrabcak

    (Department of Technical Systems Design and Monitoring, Faculty of Manufacturing Technologies with the seat in Presov, The Technical University of Kosice, Sturova 31, 08001 Presov, Slovakia)

  • Annamaria Behunova

    (Institute of Earth Resources, Faculty of Mining, Ecology, Process Control and Geotechnologies, The Technical University of Kosice, Letna 9, 04200 Kosice, Slovakia)

  • Lucia Knapcikova

    (Department of Industrial Engineering and Informatics, Faculty of Manufacturing Technologies with the seat in Presov, The Technical University of Kosice, Bayerova 1, 08001 Presov, Slovakia)

  • Marian Sofranko

    (Institute of Earth Resources, Faculty of Mining, Ecology, Process Control and Geotechnologies, The Technical University of Kosice, Letna 9, 04200 Kosice, Slovakia)

Abstract

Geopolymers are materials prepared from alkaline-activated cement without a calcium constituent. They are synthetic materials based on aluminosilicates. The main advantage of these environmentally friendly materials is that they save mineral resources and due to being free of calcium constituents, and only a small amount of CO 2 emissions are released into the environment. The circular economy model of sustainable development of new composite materials will ensure the competitiveness of industries, their stable economic growth, and a healthy environment. This paper aims to investigate geopolymer composite materials that were reinforced with a mixture of glass powder from recycled windscreens. The glass 100% circulates in the closed material cycle and can be used again in the manufacturing process without any loss of quality. We are focused on verification of readability of selected automatic identification technology and their usability directly in the manufacturing process of geopolymer composite materials.

Suggested Citation

  • Marcel Behun & Patrik Kascak & Matej Hrabcak & Annamaria Behunova & Lucia Knapcikova & Marian Sofranko, 2020. "Investigation of Sustainable Geopolymer Composite Using Automatic Identification Technology," Sustainability, MDPI, vol. 12(16), pages 1-17, August.
  • Handle: RePEc:gam:jsusta:v:12:y:2020:i:16:p:6377-:d:396025
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    Citations

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    Cited by:

    1. Janka Saderova & Andrea Rosova & Peter Kacmary & Marian Sofranko & Peter Bindzar & Tomasz Malkus, 2020. "Modelling as a Tool for the Planning of the Transport System Performance in the Conditions of a Raw Material Mining," Sustainability, MDPI, vol. 12(19), pages 1-17, September.
    2. Peter Bindzar & Daniel Macuga & Jaroslaw Brodny & Magdalena Tutak & Marcela Malindzakova, 2022. "Use of Universal Simulation Software Tools for Optimization of Signal Plans at Urban Intersections," Sustainability, MDPI, vol. 14(4), pages 1-22, February.
    3. Miriam Pekarcikova & Peter Trebuna & Marek Kliment & Michal Dic, 2021. "Solution of Bottlenecks in the Logistics Flow by Applying the Kanban Module in the Tecnomatix Plant Simulation Software," Sustainability, MDPI, vol. 13(14), pages 1-21, July.
    4. Tomáš Mandičák & Peter Mésároš & Marcela Spišáková, 2021. "Impact of Information and Communication Technology on Sustainable Supply Chain and Cost Reducing of Waste Management in Slovak Construction," Sustainability, MDPI, vol. 13(14), pages 1-19, July.

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