XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 3249
KAAS, A., WILKE, C., VANDERBRUGGEN, A. &
PEUKER, U. A. 2023. Influence of different discharge
levels on the mechanical recycling efficiency of lithium-
ion batteries. Waste Management, 172, 1–10.
KORTHAUER, R. 2013. Handbuch lithium-ionen-batter-
ien, Springer.
LYON, T., MÜTZE, T. &PEUKER, U. A. 2022a.
Decoating of Electrode Foils from EOL Lithium-Ion
Batteries by Electrohydraulic Fragmentation. Metals,
12, 209.
LYON, T., STAUDACHER, M. T., MÜTZE, T. &
PEUKER, U. A. 2022b. Recycling battery cas-
ing materials. Nano Technology for Battery Recycling,
Remanufacturing, and Reusing. Elsevier.
MARTENS, H. &GOLDMANN, D. 2011.
Recyclingtechnik, Berlin/Heidelberg, Germany,
Springer.
NEEF, C., SCHMALTZ, T. &THIELMANN, A. 2021.
Recycling von Lithium-Ionen-Batterien: Chancen
und Herausforderungen für den Maschinen-und
Anlagenbau.
ROTHERMEL, S., WINTER, M. &NOWAK, S. 2018.
Recycling of Lithium-Ion Batteries: The LithoRec
Way. In: A, K. &DIEKMANN, J. (eds.) Recycling of
Lithium-Ion Batteries: The LithoRec Way. New York:
Springer.
TIAN, Y., ZHU, Q., LAI, K.-H. &LUN, Y. V. 2014.
Analysis of greenhouse gas emissions of freight trans-
port sector in China. Journal of Transport Geography,
40, 43–52.
VANDERBRUGGEN, A. Recovery of graphite from spent
lithium ion batteries. Proceedings of International
Battery Recycling Conference, 2021 Salzburg, Austria.
WERNER, D., PEUKER, U. A. &MÜTZE, T. 2020.
Recycling chain for spent lithium-ion batteries. Metals,
10, 316.
WERNER, D. M., MÜTZE, T., KAAS, A. &PEUKER,
U. A. 2022. Mechanical and physical processes of bat-
tery recycling. Nano Technology for Battery Recycling,
Remanufacturing, and Reusing. Elsevier.
WILKE, C., KAAS, A. &PEUKER, U. A. 2023a.
Influence of the Cell Type on the Physical Processes of
the Mechanical Recycling of Automotive Lithium-Ion
Batteries. Metals, 13, 1901.
WILKE, C., WERNER, D. M., KAAS, A. &PEUKER,
U. A. 2023b. Influence of the Crusher Settings and a
Thermal Pre-Treatment on the Properties of the Fine
Fraction (Black Mass) from Mechanical Lithium-Ion
Battery Recycling. Batteries, 9, 514.
WINDISCH-KERN, S., GEROLD, E., NIGL, T.,
JANDRIC, A., ALTENDORFER, M., RUTRECHT,
B., SCHERHAUFER, S., RAUPENSTRAUCH,
H., POMBERGER, R. &ANTREKOWITSCH, H.
2022. Recycling chains for lithium-ion batteries: A
critical examination of current challenges, opportu-
nities and process dependencies. Waste Management,
138, 125v139.
WUSCHKE, L. 2018. Mechanische Aufbereitung von
Lithium-Ionen-Batteriezellen, Freiberg, Technische
Universität Bergakademie Freiberg.
WUSCHKE, L., JÄCKEL, H.-G., LEIßNER, T. &
PEUKER, U. A. 2019. Crushing of large Li-ion bat-
tery cells. Waste management, 85, 317–326.
ZHAO, S., HE, W. &LI, G. 2019. Recycling technology
and principle of spent lithium-ion battery. Recycling of
spent Lithium-ion batteries. Springer.
ZOU, H., GRATZ, E., APELIAN, D. &WANG, Y. 2013.
A novel method to recycle mixed cathode materials for
lithium ion batteries. Green Chemistry, 15, 1183–1191.
KAAS, A., WILKE, C., VANDERBRUGGEN, A. &
PEUKER, U. A. 2023. Influence of different discharge
levels on the mechanical recycling efficiency of lithium-
ion batteries. Waste Management, 172, 1–10.
KORTHAUER, R. 2013. Handbuch lithium-ionen-batter-
ien, Springer.
LYON, T., MÜTZE, T. &PEUKER, U. A. 2022a.
Decoating of Electrode Foils from EOL Lithium-Ion
Batteries by Electrohydraulic Fragmentation. Metals,
12, 209.
LYON, T., STAUDACHER, M. T., MÜTZE, T. &
PEUKER, U. A. 2022b. Recycling battery cas-
ing materials. Nano Technology for Battery Recycling,
Remanufacturing, and Reusing. Elsevier.
MARTENS, H. &GOLDMANN, D. 2011.
Recyclingtechnik, Berlin/Heidelberg, Germany,
Springer.
NEEF, C., SCHMALTZ, T. &THIELMANN, A. 2021.
Recycling von Lithium-Ionen-Batterien: Chancen
und Herausforderungen für den Maschinen-und
Anlagenbau.
ROTHERMEL, S., WINTER, M. &NOWAK, S. 2018.
Recycling of Lithium-Ion Batteries: The LithoRec
Way. In: A, K. &DIEKMANN, J. (eds.) Recycling of
Lithium-Ion Batteries: The LithoRec Way. New York:
Springer.
TIAN, Y., ZHU, Q., LAI, K.-H. &LUN, Y. V. 2014.
Analysis of greenhouse gas emissions of freight trans-
port sector in China. Journal of Transport Geography,
40, 43–52.
VANDERBRUGGEN, A. Recovery of graphite from spent
lithium ion batteries. Proceedings of International
Battery Recycling Conference, 2021 Salzburg, Austria.
WERNER, D., PEUKER, U. A. &MÜTZE, T. 2020.
Recycling chain for spent lithium-ion batteries. Metals,
10, 316.
WERNER, D. M., MÜTZE, T., KAAS, A. &PEUKER,
U. A. 2022. Mechanical and physical processes of bat-
tery recycling. Nano Technology for Battery Recycling,
Remanufacturing, and Reusing. Elsevier.
WILKE, C., KAAS, A. &PEUKER, U. A. 2023a.
Influence of the Cell Type on the Physical Processes of
the Mechanical Recycling of Automotive Lithium-Ion
Batteries. Metals, 13, 1901.
WILKE, C., WERNER, D. M., KAAS, A. &PEUKER,
U. A. 2023b. Influence of the Crusher Settings and a
Thermal Pre-Treatment on the Properties of the Fine
Fraction (Black Mass) from Mechanical Lithium-Ion
Battery Recycling. Batteries, 9, 514.
WINDISCH-KERN, S., GEROLD, E., NIGL, T.,
JANDRIC, A., ALTENDORFER, M., RUTRECHT,
B., SCHERHAUFER, S., RAUPENSTRAUCH,
H., POMBERGER, R. &ANTREKOWITSCH, H.
2022. Recycling chains for lithium-ion batteries: A
critical examination of current challenges, opportu-
nities and process dependencies. Waste Management,
138, 125v139.
WUSCHKE, L. 2018. Mechanische Aufbereitung von
Lithium-Ionen-Batteriezellen, Freiberg, Technische
Universität Bergakademie Freiberg.
WUSCHKE, L., JÄCKEL, H.-G., LEIßNER, T. &
PEUKER, U. A. 2019. Crushing of large Li-ion bat-
tery cells. Waste management, 85, 317–326.
ZHAO, S., HE, W. &LI, G. 2019. Recycling technology
and principle of spent lithium-ion battery. Recycling of
spent Lithium-ion batteries. Springer.
ZOU, H., GRATZ, E., APELIAN, D. &WANG, Y. 2013.
A novel method to recycle mixed cathode materials for
lithium ion batteries. Green Chemistry, 15, 1183–1191.