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GEOPOL®. The Innovated Environment Friendly Inorganic Binder System

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper deals with the complete technology of inorganic geopolymer binder system GEOPOL® which is a result of long term research and development. The objective of this paper is to provide a theoretical and practical overview of the GEOPOL® binder system and introduce possible ways of moulds and cores production in foundries. GEOPOL® is a unique inorganic binder system, which is needed and welcomed in terms of the environment, the work environment, and the sustainable resources. The GEOPOL® technology is currently used in the foundries for three basic production processes/technologies: (1) for self-hardening moulding mixtures, (2) sand mixtures hardened by gaseous carbon dioxide and (3) the hot box technology with hot air hardening. The GEOPOL® technology not only solves the binder system and the ways of hardening, but also deals with the entire foundry production process. Low emissions produced during mixing of sand, moulding, handling, and pouring bring a relatively significant improvement of work conditions in foundries (no VOCs). A high percentage of the reclaim sand can be used again for the preparation of the moulding mixture.
Rocznik
Tom
Strony
109--116
Opis fizyczny
Bibliogr. 14 poz., fot., rys., tab.
Twórcy
autor
  • SAND TEAM, spol. s r.o., Holubice, the Czech Republic
  • VŠB – Technical University of Ostrava, Faculty of Metallurgy and Materials Engineering, Ostrava – Poruba, the Czech Republic
autor
  • SAND TEAM, spol. s r.o., Holubice, the Czech Republic
autor
  • SAND TEAM, spol. s r.o., Holubice, the Czech Republic
Bibliografia
  • [1] Petržela, L. (1947). Patent No. 81931. Water glass CO2 process. Czechoslovakia. (in Czech).
  • [2] Jelínek, P. (2004). Binder systems of foundry sand mixtures (Chemicals of foundry binders). Ostrava: Petr Jelínek. (in Czech).
  • [3] Rusín, K., Macášek, I., Avdokušin V., Dorošenko, S. (1991). Foundry moulding materials. Praha: SNTL – Publisher of technical literature. (in Czech).
  • [4] Polzin, H. (2014). Inorganic binders for mould and core production in the foundry. Berlin: Fachverlag Schiele und Schön GmbH.
  • [5] Gluchovskij, V. (1959). Soil – Silicate Concrete (Gruntosilikáty). Kyjev: State publisher of building and architectural literature. (in Russian).
  • [6] Davidovits, J. (2015). Geopolymer Chemistry and Application. Vols. 4th edition. Saint-Quentin: Institut Géopolymère.
  • [7] Vykoukal, M., Burian, A. and Přerovská, M. (2017). Inorganic binder systems in the past, at present and in the future. Slévárenství. LXV(11-12), 361-374. (in Czech).
  • [8] Davidovits, J. (2005). The poly(sialate) terminology: a very useful and simple model for the promotion and understanding of green-chemistry. Geopolymer chemistry and sustainable development solutions. Proceedings of the World Congress Geopolymer 2005, 29-30 June and 1 July 2005 (pp. 9-16), ISBN 2-9524820-0-0, Saint-Quentin: Institut Géopolymère.
  • [9] Davidovits, J. (2006). The Pyramids: An Enigma Solved (Nové dějiny pyramid). Olomouc: Fontána. (in Czech).
  • [10] Barbosa, V. F., MacKenzie, K. J. and Thaumaturgo, C. (2000). Synthesis and characterisation of materials based on inorganic polymers of alumina and silica: sodium polysialate polymers. International Journal of Inorganic Materials. 2, 309-317. DOI: 10.1016/S1466-6049(00)00041-6.
  • [11] Rowles, M., Hanna, J., Pike, K., Smith, M. & O'Connor, B. (2007). 29Si, 27Al, 1H and 23Na MAS NMR study of the bonding character in aluminosilicate inorganic polymers. Applied Magnetic Resonance. 32, 663-689. DOI: 10.1007/ s00723-007-0043-y.
  • [12] Vykoukal, M., Burian, A., Přerovská, M. & Kubeš, P. (2016). Cores hardened by heat – operational experiences with trial of binder system GEOPOL(R) W in the foundry BENEŠ a LÁT, a.s. Slévárenství. LXIV(7-8), 236-239. (in Czech).
  • [13] Vasková, I., Conev, M. & Hrubovčáková, M. (2018). Technological Properties of Moulding Sands with Geopolymer Binder for Aluminium Casting. Archives of Foundry Engineering. 18(4), 45-49. ISSN (1897-3310).
  • [14] Holtzer, M., Kmita, A. & Dańko, R. (2015). The gases generation during thermal decomposition od moulding sands - comparison of inorganic and organic binders. Slévárenství. LXIII(7-8), 240-247. (in Czech).
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f7f227cd-f720-4d94-bf53-a594ff7bbdd8
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