TY - JOUR
T1 - Development of a new process to recover aluminium from thin complex aluminium scrap to employ for primary aluminium alloys
AU - Vicario, I.
AU - Antoñanzas, J.
AU - Yurramendi, L.
AU - Múgica, J. C.
AU - Abuin, A.
N1 - Publisher Copyright:
© 2022 Associazione Italiana di Metallurgia. All rights reserved.
PY - 2022/3/1
Y1 - 2022/3/1
N2 - Current thermal processes for the treatment of metals contaminated with impurities, especially with high contents of organic compounds, present problems in obtaining the metal fraction: the metal fraction oxidises with increasing process temperature and the contact with organic compounds. Often, the quality of aluminium obtained from "dirty" raw materials does not allow using it for applications requiring high metal purity or low metal oxidation (alloying tablets, aluminium shots, ...), or for HPDC structural parts. Some aluminium scrap streams cannot be recovered with existing processes and new developments are needed. A new two-step continuous process has been developed. It consists of a heating process at 300°C in a controlled oxidising atmosphere furnace, followed by a second heating process at 400-550°C in an inert atmosphere, which results in a combined thermo-mechanical action. The obtained clean material can be continuously sintered under pressure, obtaining a product with a density close to 2.7 g/cc. Several "dirty" materials with initial contents up to 15% wt. C and up to 1.5% wt. O have been studied, reaching to final products containing as low as 0.15% wt. C and 0.3% wt. O. An example with a filter dust from shredding of aluminium profiles is described. The final composition of the product obtained after the treatment allows using the recycled aluminium as a high quality secondary raw material for aluminium alloying tablets, aluminium powder and high-performance aluminium casting alloys.
AB - Current thermal processes for the treatment of metals contaminated with impurities, especially with high contents of organic compounds, present problems in obtaining the metal fraction: the metal fraction oxidises with increasing process temperature and the contact with organic compounds. Often, the quality of aluminium obtained from "dirty" raw materials does not allow using it for applications requiring high metal purity or low metal oxidation (alloying tablets, aluminium shots, ...), or for HPDC structural parts. Some aluminium scrap streams cannot be recovered with existing processes and new developments are needed. A new two-step continuous process has been developed. It consists of a heating process at 300°C in a controlled oxidising atmosphere furnace, followed by a second heating process at 400-550°C in an inert atmosphere, which results in a combined thermo-mechanical action. The obtained clean material can be continuously sintered under pressure, obtaining a product with a density close to 2.7 g/cc. Several "dirty" materials with initial contents up to 15% wt. C and up to 1.5% wt. O have been studied, reaching to final products containing as low as 0.15% wt. C and 0.3% wt. O. An example with a filter dust from shredding of aluminium profiles is described. The final composition of the product obtained after the treatment allows using the recycled aluminium as a high quality secondary raw material for aluminium alloying tablets, aluminium powder and high-performance aluminium casting alloys.
KW - ALUMINIUM RECYCLING
KW - COMPLEX ALUMINIUM SCRAPS
UR - http://www.scopus.com/inward/record.url?scp=85128436179&partnerID=8YFLogxK
M3 - Article
AN - SCOPUS:85128436179
SN - 0026-0843
VL - 114
SP - 29
EP - 35
JO - Metallurgia Italiana
JF - Metallurgia Italiana
IS - 3
ER -