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Paris, France
1-10 Employees
Traxys Management, Optiver, and other investors acquire all interests in Traxys Group held by Carlyle Group and affiliates of Louis M. Traxys subsequently expanded its aluminum, nickel, tin and specialty metals trading teams in the U.S., Europe and Asia. Traxys management increased its investment stake in the company as part of the acquisition transaction. In 2008, Traxys along with its private equity partners Pegasus and RCF acquired Molycorp, the owner of Mountain Pass Mine, the only rare-earth mining and processing facility in the United States. Traxys and its partners subsequently sponsored the public offering of Molycorp in 2010. Traxys sold substantially all of its interests in Molycorp by 2013. Established in 2003 with the merger of the trading division of Sogem with Considar, the Traxys platform is the result of capitalizing on a hundred years of strategic opportunities to become a forward-thinking leader in an industry steeped in tradition. The acquisition of Cometals significantly expanded Traxys industrial minerals trading franchise.
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Featured
Rare Earths & Minor Metals
... Rare Earths & Minor Metals – Traxys ...
Pittsburgh, United States
1-10 Employees
2020
With deep experience across soft magnetics, manufacturing, and commercializing energy technologies, we’re ready to power the future. Redefining the limits of magnetic solutions for EVs and the grid through advanced materials, manufacturing, and component design. CorePower Magnetics’ patented combination of advanced manufacturing processes and novel materials result in up to 10x reductions in weight, 5x reductions in volume and 50% reductions in losses with no rare earth metals required. The finished power electronics components including inductors and transformers operate with increased temperature stability in smaller, lighter packages.
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Featured
Home | CorePower Magnetics
... NO RARE EARTH METALS ...
Southfield, United States
1-10 Employees
2007
Michigan Metals & Manufacturing provides a broad selection of raw materials, specialty materials and fabricated items. Specialty materials and manufactured items that are available:. We excel in one-of-a-kind, unique products, with purities of up to 99.9999% and custom configurations. Michigan Metals & Manufacturing produces materials for every stage of the procurement process: from research to testing to production in a timely and cost efficient manner.
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Featured
Michigan Metals & Manufacturing
... Rare Earth Metals Scandium, Yttrium, Lanthanum, Cerium, Praseodymium, Neodymium, Promethium, Samarium, Europium, Gadolinium, Terbium, Dysprosium, Holmium & ...
Boston, United States
1-10 Employees
2019
At Phoenix Tailings, we are creating a new paradigm for how critical metals and rare earth elements are produced. Phoenix Tailings is on a mission to be the world’s first clean mining and metals production company, eliminating this harmful waste from the environment while sustainably creating valuable materials. Enabling truly clean technologies with zero-emission critical minerals. Revolutionizing metals production by using the entire value of an ore source. Leveraging technology to transform metals production with nothing left behind. As the building blocks of nearly every type of modern technology, we need a stable supply of metals more than ever. As the world shifts from fossil fuels towards renewable energy sources, demand for metal and rare earth elements continues to increase – however, the vast majority of the global metal supply originates in countries with minimal labor rights and inadequate environmental oversightTraditional metals production incurs environmental costs and causes significant destruction to societies. It’s this destruction that limits the expansion of metals production in developed countries.
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Featured
Products -
... Sample Neodymium (Nd) Order Sample Dysprosium (Dy) Order Sample Product Line in Development Other Rare Earth Metals Metallic Iron Products Iron Oxide Products Precious Metals Battery Metals Aggregates 8B Henshaw Street Woburn, MA 01801, USA Linkedin Twitter Interested in joing our team? ...
Oulu, Finland
1-10 Employees
2022
Halia® radiant warming turns almost any interior surface into a smart warming surface, delivering instant, energy-efficient comfort to indoor spaces while reducing the need for conventional heating systems.
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Tech | Warming Surfaces
... No rare-earth metals, no plastics Easy integration & installation Digital & low voltage No separate bonding films needed Ultra-thin & invisible High volume ...
United States
1-10 Employees
2019
VeriMetallum believes Small/Medium sized producers of Rare Earth Elements require capital, price stability, and supply chain connectivity in order to meet ESG criteria and enter Western markets. VeriMetallum seeks to expand supply by enabling small and medium sized Rare Earths producers, refiners—and manufacturers who need these materials—to enter the US market. We provide access to capital through securitized lending at competitive rates, and ensure transparency in transactions using blockchain technology. VeriMetallum provides secure storage for Rare Earth Materials (and precious metals) to enable you to meet global and US-based demand—both steady state and surge. We use a portion of stored materials to provide access to financing for SME operations or capital expenditures. We use best-in-class Blockchain providers to ensure every stakeholder has visibility into provenance information required for ESG criteria. We help you create a "virtuous cycle," where your materials provide capital to improve operations which you demonstrate to increase market share.
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Featured
About Us | Verimetallum
... MacGroup Global seeks to expand the global economy by enabling sustainable, ethical mining of Rare Earth Metals. We use blockchain technology to provide securitized financing to Rare Earth materials miners, refiners and producers. ...
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American Resources Corporation (NASDAQ: AREC)
... American Resources Corporation (NASDAQ: AREC) is a provider of battery metals, rare earth elements and carbon to the electrified economy and infrastructure marketplace. ...
Anaheim, United States
1-10 Employees
2008
We work on the cusp of innovation and technology to take products from an idea all the way to the end consumer. From startups to Fortune 500s, custom manufacturing solutions for the world’s best brands. From design, development, manufacturing and maintenance, we take on the toughest challenges at every stage. We started our company in 2007 and have grown with our customers. Our view points for every customer is a personalized and customized solution.
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Featured
Rare Earth Magnets, Metal Detectors and Metal Separators - Injection Molding Machines and Auxiliaries | Hirate America
... Rare Earth Magnets, Metal Detectors and Metal Separators - Injection Molding Machines and Auxiliaries | Hirate ...
Fishers, United States
11-50 Employees
2017
USA Rare Earth will begin operations at their commercial permanent magnet manufacturing facility in Stillwater, Oklahoma. ReElement Technologies deploys the world’s first metal recovery technology that accepts both end-of-life products and virgin ores as feedstock and recovers their rare earth elements and critical battery metals at purities ready for remanufacture. Our recovery technology is versatile and capable of refining manufacturing waste, recycled permanent magnets, lithium-based batteries, black mass, and virgin ores. Industry, infrastructure, national security, and advanced technologies can now be recycled, rebuilt, and maintained indefinitely with critical elements recovered by our process. Our platform was designed and built with modularity and co-location in mind. ReElement works alongside magnet and battery manufacturers to evaluate their production needs and ship them our platform ready for on-site deployment to recover valuable manufacturing waste, recycled materials, or virgin ores.
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Featured
Rare Earth & Battery Metal Recovery
... Rare Earth & Battery Metal ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Rare Earth Metal
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 46 |
| Amount of suitable service providers | 24 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1973 |
| Youngest suiting company | 2022 |
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Rare earth metals, comprising a group of 17 chemical elements within the periodic table, including the lanthanides series from lanthanum to lutetium, along with scandium and yttrium, are distinguished by their unique magnetic, luminescent, and electrochemical properties. These elements are pivotal in the advancement of modern technologies and are integral components in the manufacture of a wide array of technological devices. Despite their name, rare earth metals are relatively abundant in the Earth's crust; however, their dispersion means they are rarely found in concentrated and economically exploitable forms, which complicates their extraction and refinement processes. Their critical role spans various high-tech sectors, including clean energy technologies, where they are essential in the production of high-performance magnets used in wind turbines and electric vehicle motors, enhancing efficiency and performance. In the realm of electronics, rare earth metals are key in the fabrication of smartphones, computer memory modules, and fluorescent lighting, offering improvements in power, capacity, and energy conservation. The defense industry also relies heavily on these metals for the production of sophisticated weaponry and equipment, underscoring their strategic importance. The diverse applications and significant demand for rare earth metals underscore their critical role in driving technological innovation and sustainability, presenting both opportunities and challenges in terms of supply chain security and environmental sustainability.
1. High Magnetic Strength
Rare earth metals are renowned for their exceptional magnetic properties. They are key components in the manufacture of high-performance magnets, offering superior strength compared to magnets made from alternative materials. This makes them indispensable in various high-tech applications, including electric vehicles and wind turbines, where efficiency and compactness are crucial.
2. Electrical and Thermal Conductivity
These metals exhibit excellent electrical and thermal conductivity, outperforming many traditional materials. This trait is particularly beneficial in the fast-evolving electronics industry, where efficient energy transfer and heat dissipation are vital for the longevity and performance of devices such as smartphones and laptops.
3. Optical and Catalytic Properties
Rare earth metals possess unique optical and catalytic properties that are hard to replicate with other elements. They play a crucial role in refining crude oil into gasoline and are pivotal in manufacturing high-efficiency lighting solutions. Their ability to act as catalysts in a variety of chemical reactions further underscores their versatility and importance across multiple industries.
While evaluating the different suppliers make sure to check the following criteria:
1. Source of Raw Materials
Ensure the supplier has a stable and ethical source of rare earth metals, considering both environmental impact and geopolitical stability.
2. Quality Assurance
Look for certifications and quality control measures in place to ensure the purity and consistency of the metals supplied.
3. Supply Chain Transparency
Evaluate the transparency of the supply chain process to ensure there are no hidden issues that could affect supply reliability or compliance with international regulations.
4. Technical Support and Services
A good supplier should offer comprehensive technical support, including material selection, design, and recycling services.
5. Cost Competitiveness
While not compromising on quality, compare the cost-effectiveness of suppliers to ensure you are getting the best value for your investment.
6. Flexibility and Scalability
Consider the supplier’s ability to scale production up or down based on your needs, as well as their willingness to adapt to changing market demands.
Rare earth metals are indispensable in the realm of modern technology, finding applications across a swath of B2B sectors. In the electronics industry, these metals are crucial for manufacturing high-performance magnets used in computer hard drives, smartphone components, and advanced audio systems. Their unique magnetic properties enable the miniaturization of devices while enhancing performance and energy efficiency. Another significant application is in the renewable energy sector, where rare earth metals are key components in the production of high-efficiency wind turbines and electric vehicle batteries. Neodymium, for example, is used to create powerful magnets for wind turbines, contributing to the generation of cleaner energy. Similarly, lanthanum and cerium are vital in developing hybrid and electric vehicle batteries, supporting the automotive industry's shift towards greener alternatives. Additionally, rare earth metals play a critical role in healthcare technology, particularly in medical imaging devices. Gadolinium, with its exceptional neutron-absorbing properties, is used in MRI machines to improve the clarity and detail of images. This application not only enhances diagnostic capabilities but also facilitates more effective treatment planning for various conditions. In the defense industry, rare earth metals are employed to produce high-tech equipment such as night-vision goggles, precision-guided weapons, and communication systems. Their ability to withstand extreme conditions and maintain functionality in critical situations makes them invaluable to military and aerospace applications. These examples illustrate the broad and critical applications of rare earth metals across industries, underpinning their importance in driving technological advancement and sustainability efforts.
Rare earth metals, integral to numerous high-tech applications from smartphones to electric vehicles, are positioned at varying stages across the Technology Readiness Level (TRL) spectrum, primarily due to their diverse applications and the technological maturity of their extraction and processing methods. Most applications of rare earth metals in consumer electronics and renewable energy technologies are at TRL 9, indicating that these technologies have been fully commercialized and are available in the market. This high TRL reflects years of extensive research and development that have culminated in the optimization of extraction techniques, such as solvent extraction and ion exchange, which are now efficient and scalable. However, the recycling and recovery methods for rare earth elements from electronic waste are at a lower TRL, approximately around TRL 4 to 6. This discrepancy is due to the technical challenges associated with separating and purifying rare earth elements from complex electronic waste streams, which are compounded by the variability in the composition of the waste. The ongoing research aimed at improving the sustainability and reducing the environmental impact of rare earth metal production is crucial for advancing these recycling technologies to higher TRLs, thus ensuring a more sustainable lifecycle for products dependent on these critical materials.
In the short-term, the rare earth metal industry is poised to experience significant advancements in recycling technologies. These developments aim to reduce environmental impact and dependency on mining by improving the efficiency of extracting rare earth metals from electronic waste. This initiative not only promises a more sustainable approach but also seeks to stabilize supply chains disrupted by geopolitical tensions. Moving into the mid-term, we anticipate the emergence of innovative alloy compositions that enhance the performance of rare earth metals in various applications, including powerful magnets and high-capacity batteries. These alloys are expected to offer superior strength, durability, and thermal stability, thereby expanding the potential use cases of rare earth metals in the renewable energy sector, particularly in wind turbines and electric vehicles. Looking at the long-term horizon, the breakthrough lies in the discovery and commercialization of novel rare earth elements or substitutes that drastically reduce the reliance on traditional rare earth metals. This shift is predicted to transform industries by offering more abundant, less environmentally damaging alternatives. Such advancements could redefine the market dynamics, making rare earth metals more accessible and cost-effective for a wide range of technological applications, from consumer electronics to advanced defense systems.
Some interesting questions that has been asked about the results you have just received for Rare Earth Metal
What are related technologies to Rare Earth Metal?
Based on our calculations related technologies to Rare Earth Metal are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Who are Start-Ups in the field of Rare Earth Metal?
Which industries are mostly working on Rare Earth Metal?
The most represented industries which are working in Rare Earth Metal are Manufacturing, Natural Resources, Science and Engineering, Commerce and Shopping, Hardware
How does ensun find these Rare Earth Metal Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
