How To Transport Magnets By Air
How To Transport Magnets By Air
Air transportation has certain particularities. In order to ensure safety, both people and cargo need to undergo security inspections before boarding. If you carry magnetic materials, such as neodymium iron boron strong magnets, when taking a flight, or the customer is in a hurry and wants the goods to be delivered by air freight, can we bring the magnets on the…
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Exploring Versatility Of Rubber Magnet
Exploring Versatility Of Rubber Magnet
Rubber magnets, also known as flexible magnets or bendable magnets, have opened up a world of new possibilities for magnet applications and uses. Made of bonded ferrite powder or neodymium magnetic particles mixed with rubber or a flexible polymer, these pliable magnets can be manipulated into endless shapes and configurations. Their versatility, durability,…
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Introduce Exploration of Rubber Magnets
Introduce Exploration of Rubber Magnets
Rubber magnets, also known as flexible magnets, are a type of magnetic material made from a mixture of ferrite powder and rubber (usually a polymer such as polyvinyl chloride or polyurethane). They are characterized by their flexibility, which allows them to be easily bent, twisted, and cut into various shapes without losing their magnetic properties.…
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Recycling Method of Sintered NdFeB Magnet Waste
Recycling Method of Sintered NdFeB Magnet Waste
The waste recycling of NdFeB materials is usually divided into two directions: one is to separate and extract various elements, especially rare earth elements, in the NdFeB waste to prepare oxides or other compounds with a certain purity, which can be used as raw materials for different applications. fields; the second is to use waste materials to…
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Electrolytic Hydrogen Decrepitation of NdFeB Magnets
Electrolytic Hydrogen Decrepitation of NdFeB Magnets
Electrolytic Hydrogen Decrepitation (EHD) is a method used for the fragmentation of NdFeB magnets. Here’s how the process generally works:
Preparation: The NdFeB magnets are first crushed or ground into coarse particles. These particles typically have a size ranging from several millimeters to a few centimeters.
Electrolyte Bath: The crushed…
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Hydrogen Embrittlement Mechanism of NdFeB Magnet
Hydrogen Embrittlement Mechanism of NdFeB Magnet
Hydrogen embrittlement in NdFeB (Neodymium Iron Boron) magnets can occur due to the presence of hydrogen atoms diffusing into the material’s crystal lattice. This phenomenon can lead to reduced mechanical properties, such as decreased ductility and increased susceptibility to cracking or fracture.
The mechanism typically involves the following…
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Exploring the rich potential of copper and rare earth elements
Exploring the rich potential of copper and rare earth elements: A deep dive into Rincon Resources’ West Arunta project
Rincon Resources’ exploration of Australia’s newest critical mineral province, the West Arunta Region, has yielded highly promising results thus far.
Rincon Resources is an Australian minerals exploration company with a keen eye on Western Australia’s mineral-rich landscapes,…
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Magnetic neighbor effect and interfacial charge transfer induced layered ferromagnetic structures
Magnetic neighbor effect and interfacial charge transfer induced layered ferromagnetic structures
Source: Institute of Physics, Academy of Sciences
As a typical correlated electron system, perovskite nickel oxide exhibits a series of rich physical properties such as metal-insulator phase transition and topological phase transition. Recently, due to the successive discoveries of 112-phase and…
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Rainbow Rare Earths achieves milestone in rare earth oxide separation progress
Rainbow Rare Earths achieves milestone in rare earth oxide separation progress
source:Mining review
Rainbow Rare Earths has achieved group separation of rare earth elements through initial ion exchange test work ongoing in the USA.
This achievement marks a significant leap forward in the rare earth oxide separation process, opening doors to the production of individual rare earth oxides. With a…
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A bright idea for recycling rare-earth phosphors from used fluorescent bulbs
A bright idea for recycling rare-earth phosphors from used fluorescent bulbs
Recycling facilities collect glass and mercury from thrown away fluorescent bulbs, but discarded lighting could also supply rare-earth metals for reuse. The 17 metals referred to as rare earths aren’t all widely available and aren’t easily extracted with existing recycling methods. Now, researchers have found a simpler…
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Revolutionising Rare Earth Element supply chains
Revolutionising Rare Earth Element supply chains:Groundbreaking study advocates circular economy approaches
Researchers have developed an innovative integrated model to evaluate the revolutionary potential of circular economy approaches on global supply chains for essential rare earth elements (REEs) such as neodymium, dysprosium, and terbium. This is part of a groundbreaking study co-led by…
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Appia Rare Earths and Uranium Corp
Appia Rare Earths and Uranium Corp
Appia Rare Earths and Uranium Corp: Developing critical REE and uranium assets to power tomorrow’s technologies today
Appia’s portfolio, spanning regions in Canada rich in both REE and uranium, along with the promising PCH Ionic Adsorption Clay REE project in Brazil, has great potential for our clean energy future.
Rare earth elements (REE) remain largely…
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Advancing cutting-edge rare earth recovery technology
Rare Element Resources: Advancing cutting-edge rare earth recovery technology
Rare Element Resources’ rare earth recovery technology has significant economic and environmental advantages over traditional methods and will be refined and confirmed at a demonstration scale in mid-2024.
Rare Element Resources (RER), in cooperation with its technology partner, defence and diversified technology…
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Researchers explore for rare earths in Alaskan seaweed
Researchers explore for rare earths in Alaskan seaweed
source:Innovation news network
A research team led by the University of Alaska Fairbanks has been awarded a $1.9m federal grant to explore whether Southeast Alaskan seaweed is absorbing rare earths.
The study will look at Alaskan seaweed near Bokan Mountain, a remote landmark on Prince of Wales Island known to contain rare earths.
The team…
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Visit the Magnetic Materials and Application Industry Chain Exhibition
Visit the Magnetic Materials and Application Industry Chain Exhibition
On the afternoon of March 7, 2024, MPCO organized a visit to the 2024 Shanghai International Magnetic Materials and Application Industry Chain Exhibition held at the Shanghai World Expo Exhibition and Convention Center, aiming to gain an in-depth understanding of the latest applications of rare earth magnetic materials in…
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Recycling Rare-earth magnets could transform the green economy
Recycling Rare-earth magnets could transform the green economy
source:physics world
James McKenzie looks at the work of University of Birmingham spin-off firm HyProMag, which has developed a technique for recycling rare-earth magnets
Growth prospects Rare-earth permanent magnets are vital for the “green economy”, but with more than 99% scrapped, the potential market for HyProMag’s recycled…
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Loss of Permanent Magnet Magnetization Due to Cold Temperatures Exposure
Loss of Permanent Magnet Magnetization Due to Cold Temperatures Exposure
Loss of magnetization due to cold temperatures exposure is a phenomenon that occurs in various types of materials, particularly in magnetic materials. This phenomenon is commonly known as the “superparamagnetic effect” or “temperature-dependent magnetization.” It results from the thermal agitation of the atomic spins in the…
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