Title

The Influence of Biomaterial in a Binder Composition on Biodegradation of Waste from Furan Moulding Sands

Journal title

Archives of Foundry Engineering

Yearbook

Accepted articles

Affiliation

Major-Gabryś, K. : AGH University of Science and Technology, Faculty of Foundry Engineering, Mickiewicza 30, 30-059 Cracow, Poland ; Stachurek, I. : ŁUKASIEWICZ Research Network - Foundry Research Institute, Zakopianska 73, 30-418 Cracow, Poland ; Hosadyna-Kondracka, M. : ŁUKASIEWICZ Research Network - Foundry Research Institute, Zakopianska 73, 30-418 Cracow, Poland

Authors

Major-Gabryś, K. ; Stachurek, I. ; Hosadyna-Kondracka, M.

Keywords

Moulding sand ; Organic binder ; Biodegradable PCL additive ; Biodegradation process

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

[1] Bastian, K.C., Alleman, J.E. (1996). Environmental bioassay evaluation of foundry waste residuals. Joint Transportation Research Program Technical Report Series, Purdue University, Purdue e-Pubs.
[2] Brenner, V. (2003). Biodegradace persistentních xenobiotik. Biodegradace. VI, 2003, 45-47.
[3] Sobków, D., Barton, J., Czaja, K., Sudoł, M. & Mazoń, B. (2014). Research on the resistance of materials to environmental factors. CHEMIK. 68(4), 347–354. (in Polish).
[4] Stachurek I. (2010). Biomedical systems of polyethylene oxide biodegradable in the aquatic environment. PhD thesis, Politechnika Krakowska. (in Polish).
[5] Eastman, J. (2000). Protein-based binder update: performance put to the test. Modern Casting. 90, 32-34.
[6] Kramářová, D., Brandštetr, J., Rusín, K. & Henzlová, P. (2003). Biogenic polymeric materials as binders for foundry molds and cores. Slévárenství. 60(2-3), 71-73. (in Czech).
[7] Grabowska, B., Holtzer, M., Dańko, R., Górny, M., Bobrowski, A. & Olejnik, E. (2013). New bioco binders containing biopolymers for foundry industry. Metalurgija. 52(1), 47-50.
[8] Grabowska, B., Szucki, M., Suchy, J.Sz., Eichholz, S., Hodor, K. (2013). Thermal degradation behavior of cellulose-based material for gating systems in iron casting production. Polimery. 58(1), 39-44.
[9] Major-Gabryś, K. (2016). Environmentally Friendly Foundry Moulding and Core Sands. Katowice-Gliwice, Archives of Foundry Engineering, ISBN 978-83-63605-24-7 (in Polish)
[10] Major-Gabryś, K. (2019). Environmentally Friendly Foundry Molding and Core Sands. Journal of Materials Engineering and Performance. 28(7), 3905-3911.
[11] Holtzer, M. (2001). Management of waste and by-products in foundries. Kraków: University Scientific and Didactic Publishers, AGH, Poland. (in Polish).
[12] Skrzyński, M., Dańko, R. & Czapla, P. (2014). Regeneration of used moulding sand with furfuryl resin on a laboratory stand. Archives of Foundry Engineering. 14(spec.4), 111-114. (in Polish).
[13] Dańko, R., Łucarz, M. & Dańko, J. (2014). Mechanical and mechanical-thermal regeneration of the used core sand from the cold-box process. Archives of Foundry Engineering. 14(spec.4), 21-24. (in Polish).
[14] Rui, T., Liu, J. (2010). Study of modified furan resin binder system for large steel castings. In Proceedings of 69th World Foundry Congress, 16 - 20 October 2010. Hangzhou, China, World Foundry Organization (pp. 996 – 999).
[15] Dańko, R., Holtzer, M., Dańko, J. (2015). Characteristics of dust from mechanical reclamation of moulding sand with furan cold-setting resins – impact on environment. In Proceedings of the 2015 WFO International Forum on Moulding Materials and Casting Technologies, 25 – 28 September 2015. Changsha, China. WFO Moulding Materials Commission, Foundry Institution of Chinese Mechanical Engineering Society, Productivity Center of Foundry Industry of China (38-46).
[16] Iwamoto, A. & Tokiwa, Y. (1994). Enzymatic degradation of plastics containing polycaprolactone. Polymer Degradation and Stability. 45(2), 205-213.
[17] Eastmond, G.C. (2000). Poly(ε-caprolactone) blends. Advances in Polymer Science. 149, 59-222.
[18] Gutowska, A., Michniewicz, M., Ciechańska, D. & Szalczyńska, M. (2013). Methods of testing the biodegradability of biomass materials. CHEMIK. 67(10), 945-954. (in Polish).
[19] Major-Gabryś, K., Hosadyna-Kondracka, M., Skrzyński, M., 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: 7-9.09.2020 r. Baranów Sandomierski, Poland.
[20] Major-Gabryś, K., Hosadyna-Kondracka, M. & Stachurek, I. (2020). 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. Journal of Applied Materials Engineering. 60(4), 121-129.

Date

2022.05.10

Type

Article accepted

Identifier

DOI: 10.24425/afe.2022.140222

Open Access Policy

Archives of Foundry Engineering is an open access journal with all content available with no charge in full text version.
The journal content is available under the Creative Commons Attribution 4.0 International License ( http://creativecommons.org/licenses/by/4.0/).