Alaeddine Oussai – Szent István University, Faculty of Mechanical Engineering Institute of Mechanics and Machinery, Hungary
Zoltán Bártfai – Szent István University, Faculty of Mechanical Engineering Institute of Mechanics and Machinery, Hungary
László Kátai – Szent István University, Faculty of Mechanical Engineering Institute of Mechanics and Machinery, Hungary
István Szalkai – FKF Nonprofit ZRT
5th International Conference – ERAZ 2019 – KNOWLEDGE BASED SUSTAINABLE DEVELOPMENT, Budapest – Hungary, May 23, 2019, CONFERENCE PROCEEDINGS
Published by: Association of Economists and Managers of the Balkans – Belgrade, Serbia
Conference partners: Faculty of Economics and Business, Mediterranean University, Montenegro; University of National and World Economy – Sofia, Bulgaria; Faculty of Commercial and Business Studies – Celje, Slovenia; Faculty of Applied Management, Economics and Finance – Belgrade, Serbia;
ISBN 978-86-80194-20-2, ISSN 2683-5568, DOI: https://doi.org/10.31410/ERAZ.2019
Before 40 years, re-utilization of post-buyer bundling as glass containers and jugs was normal.
There are restrictions to the excessive and extensive usage of inflexible compartment re-utilization, which
are at any rate usually estimated. The dissemination and accumulation focus are generally far away from
unified item filling manufacturing plants and would bring about impressive back-pull separations. Also, the
extensive variety of compartments and packs for marking and promoting purposes makes coordinate reclaim
and refilling less practical. Reclaim and refilling plans do exist in a few European nations (Institute for Local
Self-Reliance 2002), including PET containers and also glass, however they are somewhere else for the
most part considered a specialty movement for neighbourhood organizations as opposed to a sensible vast
scale procedure to lessen bundling waste. (Saikia & de Brito, 2014). Plastic aggregates used in many studies,
prepared from plastic waste, are obtained from different sources. As example plastic bottles were grinded in
the laboratory by using a grinding machine and then sieved to get the suitable size fraction. (Frigione, 2010).
3D printing, plastic, recycling, extrusion, filament.
 Al-Salem, S. M., Lettieri, P., & Baeyens, J. (2009). Recycling and recovery routes of
plastic solid waste (PSW): A review. Waste Management, 29(10), 2625–2643. https://doi.
 Bornak, R. (2013). Different Methods of PET Production and Its Economy Different Methods
of PET Production and Its Economy. European Journal of Scientific Research, (December),
 Flores, M. C. (2008). Plastic Materials and Environmental Externalities Plastic Materials
and Environmental Externalities: Structural Causes and Corrective Policy Table of
Contents Plastic Materials and Environmental Externalities Plastics Recycling: Law and
Economics. Lethbridge Undergraduate Research Journal, 3, 2–7.
 Frigione, M. (2010). Recycling of PET bottles as fine aggregate in concrete. Waste Management,
30(6), 1101–1106. https://doi.org/10.1016/J.WASMAN.2010.01.030
 Hopewell, J., Dvorak, R., & Kosior, E. (2009). Plastics recycling: challenges and opportunities.
Philosophical Transactions of the Royal Society B: Biological Sciences, 364(1),
 Kou, S. C., Lee, G., Poon, C. S., & Lai, W. L. (2009). Properties of lightweight aggregate
concrete prepared with PVC granules derived from scraped PVC pipes. Waste Management,
29(2), 621–628. https://doi.org/10.1016/J.WASMAN.2008.06.014
 Oussai, A., & Zoltan, B. (2017). DESIGN AND SIZING OF A PLASTIC RECYCLING
STATION INTO FILAMENTS FOR 3D PRINTER. In Engineering, Agriculture and
Green Industry Innovation (pp. 1–6). Budapest: synergy international conferences.
 Rahmani, E., Dehestani, M., Beygi, M. H. A., Allahyari, H., & Nikbin, I. M. (2013). On
the mechanical properties of concrete containing waste PET particles. Construction and
Building Materials, 47, 1302–1308. https://doi.org/10.1016/J.CONBUILDMAT.2013.06.041
 Saikia, N., & de Brito, J. (2014). Mechanical properties and abrasion behaviour of concrete
containing shredded PET bottle waste as a partial substitution of natural aggregate.
Construction and Building Materials, 52, 236–244. https://doi.org/10.1016/J.CONBUILDMAT.
 Tafheem, Z., Islam Rakib, R., Esharuhullah, M. D., Reduanul Alam, S. M., & Mashfiqul
Islam, M. (2018). Experimental investigation on the properties of concrete containing post-consumer plastic waste as coarse aggregate replacement | Request PDF. Journal of
Materials and Engineering Structures, 5(March), 23–31
 Wasan Ismail Khalil, & Khalaf Jumaa Khalaf. (2017). Eco-Friendly Concrete Containing
Pet Plastic Waste Aggregate. Diyala Journal of Engineering Sciences, 10(01), 92–105. Retrieved
 Welle, F. (2011). Twenty years of PET bottle to bottle recycling—An overview. Resources,
Conservation and Recycling, 55(11), 865–875. https://doi.org/10.1016/J.RESCONREC.