NdFeB permanent magnets have different life cycles, depending on the applications: from as short as 2–3 years in consumer electronics to 20–30 years in wind turbines. The size of the magnets ranges from less than 1 g in small consumer electronics to about 1 kg in electric vehicles (EVs) and hybrid and electric vehicles (HEVs), and can be as large as 1000–2000 kg in the generators of modern wind turbines. NdFeB permanent magnets contain about 31–32 wt% of rare-earth elements (REEs). Recycling of REEs contained in this type of magnets from the End-of-Life (EOL) products will play an important and complementary role in the total supply of REEs in the future. However, collection and recovery of the magnets from small consumer electronics impose...
The rare earth elements are a group of 17 elements consisting of the lantahnide series, scandium and...
Neodymium magnets currently dominate the magnet market due to their superior magnetic proper-ties wi...
This paper proposes a pyrometallurgical recycling method for end-of-life NdFeB magnets by oxidizing ...
NdFeB permanent magnets have different life cycles, depending on the applications: from as short as ...
NdFeB permanent magnets have different life cycles, depending on the applications: from as short as ...
NdFeB permanent magnets have different life cycles, depending on the applications: from as short as ...
Neodymium-iron-boron (NdFeB) magnets are used in many applications, from small consumer electronics ...
Magnets containing rare earth elements (REE) play a major role in green technologies such as hybrid ...
Rare earth permanent magnets are an integral part of many electrical and electronic devices as well ...
Besides neodymium, the chemical composition of Neodymium–Iron–Boron (NdFeB) permanent magnets possib...
The demand for REEs is continuously increasing in the European Union due to the rapid development of...
International audienceAlbeit being considered today as the most critical raw materials group with th...
End-of-life recycling is promoted by OECD countries as a promising strategy in the current global su...
NdFeB magnets are used in wind turbines and hybrid electric vehicles and are instrumental in progres...
Neodymium-iron-boron (NdFeB) magnets offer the strongest magnetic field per volume that is not possi...
The rare earth elements are a group of 17 elements consisting of the lantahnide series, scandium and...
Neodymium magnets currently dominate the magnet market due to their superior magnetic proper-ties wi...
This paper proposes a pyrometallurgical recycling method for end-of-life NdFeB magnets by oxidizing ...
NdFeB permanent magnets have different life cycles, depending on the applications: from as short as ...
NdFeB permanent magnets have different life cycles, depending on the applications: from as short as ...
NdFeB permanent magnets have different life cycles, depending on the applications: from as short as ...
Neodymium-iron-boron (NdFeB) magnets are used in many applications, from small consumer electronics ...
Magnets containing rare earth elements (REE) play a major role in green technologies such as hybrid ...
Rare earth permanent magnets are an integral part of many electrical and electronic devices as well ...
Besides neodymium, the chemical composition of Neodymium–Iron–Boron (NdFeB) permanent magnets possib...
The demand for REEs is continuously increasing in the European Union due to the rapid development of...
International audienceAlbeit being considered today as the most critical raw materials group with th...
End-of-life recycling is promoted by OECD countries as a promising strategy in the current global su...
NdFeB magnets are used in wind turbines and hybrid electric vehicles and are instrumental in progres...
Neodymium-iron-boron (NdFeB) magnets offer the strongest magnetic field per volume that is not possi...
The rare earth elements are a group of 17 elements consisting of the lantahnide series, scandium and...
Neodymium magnets currently dominate the magnet market due to their superior magnetic proper-ties wi...
This paper proposes a pyrometallurgical recycling method for end-of-life NdFeB magnets by oxidizing ...