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Effect of Flux on the Recovery Behavior of Valuable Metals during the Melting Process of Aluminum Can Scrap

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Języki publikacji
EN
Abstrakty
EN
This study investigated the effect of flux type and amounts on recovery behavior of aluminum alloy during the melting process of Al can scrap. The heat treatment was conducted to remove the coating layer on the surface of can scrap at 500°C for 30 min. The molten metal treatment of the scrap was performed at 750°C in a high-frequency induction furnace with different flux types and amounts. It was observed that the optimum condition for recovery of Al alloy was to add about 3 wt.% flux with a salt and MgCl2 mixing ratio of 70:30 during melting process. The mechanical properties of recovered Al alloy were about 254.8 mPa, which is similar to that of the virgin Al5083 alloy.
Słowa kluczowe
Twórcy
  • Korea Institute of Industrial Technology, Research Institute of Advanced Manufacturing & Materials, 156 Gaetbeol Rd., Yeonsu-gu, Incheon, 406-840, Korea
  • Korea Institute of Industrial Technology, Research Institute of Advanced Manufacturing & Materials, 156 Gaetbeol Rd., Yeonsu-gu, Incheon, 406-840, Korea
autor
  • Institute for Advanced Engineering Materials Science and Chemical Engineering Center, Korea
  • Mokpo National University, Department of Advanced Materials Science and Engineering, Korea
Bibliografia
  • [1] Y. Nam, J. Choi, Y.-C. Jang, J.-H. Lee, J. of Korea Society of Waste Management 33 (1), 29 (2016).
  • [2] E.-K. Jeon, J.-Y. Park, I.-M. Park, J. Korea Foundry Society 27 (1), 20 (2007).
  • [3] V. Güley, N. Ben Khalifa, A.E. Tekkaya, Int. J. Mater. Form. 3, 853 (2010).
  • [4] J. Cui, H.J. Roven, Trans. Nonferrous Met. Soc. China 20, 2057 (2010).
  • [5] M.A. Rabah, Waste Manage. 23, 173 (2003).
  • [6] S.N. Ab Rahim, M.A. Lajis, S. Ariffin, Procedia CIRP 26, 761 (2015).
  • [7] S. Capuzzi, G. Timelli, Metals 8, 249 (2018).
  • [8] A. Abdulkadir, A. Ajayi, M.I. Hassan, Energy Procedia 75, 2009 (2015).
  • [9] C. Han, S.H. Son, B.-D. Ahn, D.-G. Kim, M.S. Lee, Y.H. Kim, J. of Korean Inst. of Resources Recycling 26 (4), 71 (2017).
  • [10] M.A. Bae, H.D. Kim, M.S. Lee, J. Korea Acad. Industr. Coop. Soc.14 (10), 4672 (2013).
  • [11] S.O. Adeosun, M.A. Usman, W.A. Ayoola, I.O. Sekunowo, ISRN Polymer Sci. 2012, 1 (2012).
  • [12] T.A. Utigard, K. Friesen, R.R. Roy, J. Lim, A. Silny, C. Dupuis, JOM 50, 38 (1998).
  • [13] D. Bajarea, A. Korjakinsa, J. Kazjonovsa, I. Rozenstrauhab, J. Eur. Ceram. Soc. 32 (1), 141 (2012).
  • [14] O. Majidi, S.G. Shabestari, M.R. Aboutalebi, J. Mater. Process. Technol. 182, 450 (2007).
  • [15] S. Begum, J. Chem. Soc. Pak. 35 (6), 1490 (2013).
  • [16] B. Wan, W. Li, F. Liu, T. Lu, S. Jin, K. Wang, A. Yi, J. Tian, W. Chen, J. Mater. Res. Technol. 9 (3), 3447 (2020).
  • [17] J.H. L. V. Linden, D.L. Stewart Jr., Essential Readings in Light Metals 3, 173 (2013).
  • [18] T.A. Utigard, R.R. Roy, K. Friesen, High Temp. Mater. Process.20, 303 (2001).
Uwagi
1. This work was supported by the Technology Innovation Program (or Industrial Strategic Technology Development Program-Development of Material Component Technology) (20011183, Commercialization and development of new design on turbulent high temperature melting furnace (2000 ton /y pilot scale) and separation/recovery of valuable metals from end of life xEV/ESS battery pack. (funded by the Ministry of Trade, Industry & Energy, Korea).
2. 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-7992a0e1-43c9-436b-ba39-ec5a47f8f2de
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