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Determination of Mass Loss in Samples of Post-Regeneration Dust from Moulding Sands with and without PCL Subjected to Biodegradation Processes in a Water Environment

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In recent years, the demand for products made of biodegradable or partially biodegradable materials has been increasing. This is mainly due to the ever-increasing amount of waste in landfills, but also to the problem of post-production waste management. This problem also concerns waste from the casting process of sands made on the basis of furfuryl resin, as well as residues from the regeneration process of these sands. The article presents the issues related to the methodology of research on the biodegradation process both in the natural environment and methods conducted in laboratory conditions. The preliminary results of the research on the biodegradation process in the aquatic environment, to which the dusts from mechanical regeneration of moulding sand were subjected, indicate the directions of further research and work in the field of selection of components of moulding sand with biodegradable properties. These tests should be carried out primarily in terms of determining the minimum and maximum amount of the addition of a biodegradable component to the moulding sand.
Rocznik
Strony
121--129
Opis fizyczny
Bibliogr. 16 poz., rys., tab., wykr.
Twórcy
  • Faculty of Foundry Engineering, AGH University of Science and Technology, Mickiewicza 30, 30-059 Krakow, Poland
  • Łukasiewicz Research Network - Krakow Institute of Technology, Zakopianska 73, 30-418 Krakow, Poland
  • Łukasiewicz Research Network - Krakow Institute of Technology, Zakopianska 73, 30-418 Krakow, Poland
Bibliografia
  • [1] Bastian, K. C., and Alleman, J. E. 1996. Environmental Bioassay Evaluation of Foundry Waste Residuals. Publication FHWA/IN/JHRP-96/04. Joint Highway Research Project. West Lafayette, IN: Indiana Department of Transportation and Purdue University. doi:10.5703/1288284313204.
  • [2] Choi, E. J., and Park, J. K. 1996. Study on biodegradability of PCL/SAN blend using composting method. Polymer Degradation and Stability 52 (3): 321–326, doi:10.1016/0141-3910(96)00032-8.
  • [3] Eastman, J. 2000. Protein-Based Binder Update: Performance Put to the Test. Modern Casting 10: 32–34.
  • [4] Eastmond, G.C. 2000. Poly(ε-caprolactone) Blends. Advances in Polymer Science 149: 59–222.
  • [5] Fecko, P., Pertile, E., Lyčková, B., Vojtkova, H., Janáková, I., and Tora, M. 2010. Biodegradation of hazardous pollutants. Journal of the Polish Mineral Engineering Society January–December: 41–48.
  • [6] Grabarczyk, A., and Dobosz, St. M. 2016. V Conference of PhD Students at the Faculty of Foundry Engineering, AGH University of Science and Technology, Kraków, Poland, 9 May 2016.
  • [7] Gutowska, A., Michniewicz, M., Ciechańska, D., and Szalczyńska, M. 2013. Metody badania biodegradowalności materiałów biomasowych. Chemik 67(10): 945–954. (In Polish)
  • [8] Hosadyna-Kondracka, M., Major-Gabryś, K., and Brůna, M. n.d. The influence of biodegradable additive in moulding sand on structure and mechanical properties of ductile iron casting. Archives of Metallurgy and Materials, submitted for publishing.
  • [9] Iwamoto, A., and Tokiwa, Y. 1994. Enzymatic degradation of plastics containing polycaprolactone. Polymer Degradation and Stability 45(2): 205–213, doi:10.1016/0141-3910(94)90138-4.
  • [10] Major-Gabryś, K., Hosadyna-Kondracka, M., Skrzyński, M., and Pastirčák, R. 2020. The quality of reclaim from moulding sand with furfuryl resin and PCL additive. The abstract paper at XXVI International Conference of Polish, Czech and Slovak Founders—Spolupráca, Baranów Sandomierski, Poland, 7–9 September 2020.
  • [11] Major-Gabryś, K. 2019. Environmentally Friendly Foundry Molding and Core Sands. Journal of Materials Engineering and Performance 28(7): 3905–3911. doi:10.1007/s11665-019-03947-x.
  • [12] Major-Gabryś, K. 2016. Odlewnicze masy formierskie i rdzeniowe przyjazne dla środowiska. Katowice; Gliwice: Wydawnictwo Archives of Foundry Engineering. (In Polish)
  • [13] Major-Gabryś, K., Grabarczyk, A., Dobosz, St. M., and J. Jakubski. 2016. New Bicomponent Binders for Foundry Moulding Sands. Metalurgija 55(3): 385–387.
  • [14] Park, J., Chen, Y. M., Kukor, J.J., and Abriola, L.M. Influence of substrate exposure history on biodegradation in a porous medium. Journal of Contaminant Hydrology 51(3–4): 233–256.
  • [15] Sobków, D., Barton, J., Czaja, K., Sudoł, M., and Mazoń, B. 2014. Badania odporności materiałów na działanie czynników środowiska naturalnego. Chemik 68(4): 347–354.
  • [16] Stachurek, I. 2010. Biomedical Systems of Polyethylene Oxide Biodegradable in the Aquatic Environment. Doctoral dissertation, Cracow University of Technology, Poland.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e7be2456-9591-4a57-89c8-546a93fba697
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