- AustraliaNorth AmericaWorld
Investing News NetworkYour trusted source for investing success
Galan Lithium
Trident Royalties PLC
International Graphite
Carbon Done Right
- Lithium Outlook
- Oil and Gas Outlook
- Gold Outlook Report
- Uranium Outlook
- Rare Earths Outlook
- All Outlook Reports
- Top Generative AI Stocks
- Top EV Stocks
- Biggest AI Companies
- Biggest Blockchain Stocks
- Biggest Cryptocurrency-mining Stocks
- Biggest Cybersecurity Companies
- Biggest Robotics Companies
- Biggest Social Media Companies
- Biggest Technology ETFs
- Artificial Intellgience ETFs
- Robotics ETFs
- Canadian Cryptocurrency ETFs
- Artificial Intelligence Outlook
- EV Outlook
- Cleantech Outlook
- Crypto Outlook
- Tech Outlook
- All Market Outlook Reports
- Cannabis Weekly Round-Up
- Top Alzheimer's Treatment Stocks
- Top Biotech Stocks
- Top Plant-based Food Stocks
- Biggest Cannabis Stocks
- Biggest Pharma Stocks
- Longevity Stocks to Watch
- Psychedelics Stocks to Watch
- Top Cobalt Stocks
- Small Biotech ETFs to Watch
- Top Life Science ETFs
- Biggest Pharmaceutical ETFs
- Life Science Outlook
- Biotech Outlook
- Cannabis Outlook
- Pharma Outlook
- Psychedelics Outlook
- All Market Outlook Reports
Rarex Limited Financial Statements For Half Year Ended 31 December 2022
Australian sustainable rare earths company RareX Limited (ASX: REE) (RareX or the Company), is pleased to present its Half Year Report.
DIRECTORS’ REPORT
The Board of Directors have pleasure in presenting its interim consolidated report of RareX Limited (RareX or the Company) and its controlled entities (the Group or consolidated entity) for the half year ended 31 December 2022.
1. DIRECTORS
The names of the Company’s Directors in office during the half year and until the date of this report are set out below. Directors were in office for this entire period unless otherwise stated.
Mr John Young
Mr Jeremy Robinson
Mr Danny Goeman (appointed 1 March 2023)
Mr Shaun Hardcastle
Mr Cameron Henry
2. PRINCIPAL ACTIVITIES
The principal activities of the Group are mineral exploration and development. No significant change in the nature of these activities occurred during the half year.
3. REVIEW OF OPERATIONS
During the half year, the Company continued its exploration programs at the Cummins Range Rare Earths Project, Western Australia, with key points being:
- Release of a positive scoping study for the Cummins Range Project;
- 2022 drilling program completed with 16,000m drilled to support on-going metallurgical studies of a highly successful 6,000m RC and diamond drill program; and
- Outstanding wide rare earths-phosphate intercepts paving the way for pivotal resource upgrade at Cummins Range in 2023.
4. FINANCIAL RESULTS
The loss of the Group for the period ended 31 December 2022 was $4,091,878 (six months to 31 December 2021: loss of $4,721,568). During the half year, total expenses amounted to $6,264,530 (six months to 31 December 2021: $7,946,802).
Unrestricted cash and cash equivalents amounted to $1,740,065 as at 31 December 2022 (30 June 2022: $8,232,977).
5. EVENTS SUBSEQUENT TO THE END OF THE REPORTING PERIOD
There are no matters or circumstances which have arisen since the end of the half year which significantly affected or may significantly affect the operations of the consolidated entity, the results of those operations, or the state of affairs of the consolidated entity in subsequent financial periods, other than:
- On 10 February 2023, the Company issued 18,000,000 performance rights, vesting on various milestones, to employees under the Company’s Employee Securities Incentive Plan;
- On 14 February 2023, $2,141,754 was received from the ATO in respect of a Research and Development grant; and
- On 1 March 2023, the Company issued 4.500,000 unquoted options exercisable at $0.10 on or before 1 March 2026 to newly appointed non-executive director, Mr Danny Goeman.
6. AUDITOR’S INDEPENDENCE DECLARATION
The auditor’s independence declaration under Section 307C of the Corporations Act 2001 is set out on page 3 and forms part of the Directors’ Report for the half year ended 31 December 2022.
This report is made in accordance with a resolution of the Directors.
Click here for the full ASX Release
This article includes content from RareX, licensed for the purpose of publishing on Investing News Australia. This article does not constitute financial product advice. It is your responsibility to perform proper due diligence before acting upon any information provided here. Please refer to our full disclaimer here.
ChemX Materials: Developing Innovative Processing Technology to Produce High Purity Alumina
ChemX Materials (ASX:CMX) develops innovative processing technology to produce high purity alumina for advanced technology and clean energy applications. The company's 100 percent owned, Australian patented HiPurA® process technology offers a low cost and energy intensity production method to produce high purity alumina (HPA).
HPA is used in advanced technology and clean energy applications including lithium-ion batteries, LEDs, semiconductors and synthetic sapphires. Synthetic sapphires are critical in the production of applications such as smart watches, iPhones and laptop screens.ChemX Materials is also developing a high purity manganese project. The Jamieson Tank project is located on two exploration tenements, EL 5920 and EL 6634 in the Eyre Peninsula in South Australia. These tenements collectively cover an area of 718 km2.
ChemX Materials completed a 94-hole drill program at the Jamieson Tank project, totaling 6,164 metres and released its maiden Mineral Resource Estimate in September 2023. The Mineral Resource Estimate reported 13.1 Mt at 5.7 percent manganese, with 21 percent classified as Indicated and 79 percent classified as Inferred.
Company Highlights
- ChemX Materials Limited (ChemX Materials) is an Australian company developing an innovative, processing technology to produce high-purity alumina (HPA), this process is called HiPurA®.
- ChemX Materials owns 100 percent of HiPurA® and was granted an Australian patent for this technology in January 2024.
- High purity alumina is used in advanced technology and clean energy applications including lithium-ion batteries, LEDs, semiconductors, smart watches and iPhones.
- The HiPurA® process is modular, scalable and uses a readily available aluminous chemical as its feedstock, therefore is not reliant on mine production offtake, all of which enable the technology to be deployed close to end users' manufacturing operations.
- ChemX Materials has proven HiPurA® can produce above 4N (99.99 percent) high purity alumina at micro plant scale. This testwork indicates HiPurA® is low in cost and energy intensity.
- ChemX Materials is constructing a pilot plant to demonstrate HiPurA® can work at scale, which is the next step towards commercialisation. The pilot plant construction is underway and on track for commissioning in June 2024.
This ChemX Materials profile is part of a paid investor education campaign.*
Click here to connect with ChemX Materials (ASX:CMX) to receive an Investor Presentation
Massive Maiden Mineral Resource Estimate >1B Tonnes for EMA Rare Earth Project
Brazilian Critical Minerals Limited (ASX: BCM) (“BCM” or the “Company”) is pleased to announce a maiden Mineral Resource Estimate (MRE) for the Ema and Ema East projects (collectively Ema), forming part of the Company´s wholly owned REE projects, Apuí, Amazon, Brazil (Table 2) at a cut-off of 500ppm the Inferred Mineral Resource Estimate contains 1,017Mt @ 793 ppm TREO.
Highlights
- JORC 2012 compliant Inferred Mineral Resource Estimate (MRE) of 1.02Bt @ 793ppm TREO, including a higher-grade portion of 331Mt @ 977ppm TREO
- Places Ema as one of the largest1 tonnage fully ionic clay, rare earth deposits in the world
- High magnetic REO (Nd, Pr, Dy, Tb) element proportion of 27 – 31% of basket positioning it as one of Brazil’s most enriched MREO deposits
- MRE developed from only 46% of the available area at Ema, with 107km2 available for further exploration
- The mineralisation is close to surface, amenable to low-cost open pit mining methods and remains open at depth and to the east and west
- Drilling program is now being designed to convert MRE from Inferred to Indicated and Measured categories
MRE when coupled with previously announced1 world class metallurgical testwork recovery results of the magnetic rare earth oxides (MREO), as listed below, confirm the following:
- 10 metres @ 76% Nd, 74% Pr, 47% Dy and 54% Tb from 10m (EMA-TR-101)
- 6 metres @ 66% Nd, 61% Pr, 56% Dy and 83% Tb from 10m (EML-TR-059)
- 13 metres @ 71% Nd, 62% Pr, 45% Dy and 52% Tb from 5m (TR-071)
- 5 metres @ 66% Nd, 66% Pr, 52% Dy and 55% Tb from 12m (TR-059)
- 10 metres @ 65% Nd, 61% Pr, 43% Dy and 50% Tb from 10m (TR-110)
- Ema is a fully ionic clay rare earth deposit – there is currently zero drilling into fresh rock
- Is amenable to a low cost REE metal recovery process – low reagent usage, high impurity removal in final product
- Recoveries achieved using standard weak ammonium sulphate leaching solution, pH 4, at ambient temperatures over low leach times of only 30 minutes duration
- Results demonstrate mineralisation is suited to low-cost processing through conventional processing facilities commonly used in China
Andrew Reid, Managing Director, commented:
“Today’s announcement is very important for the Company and our shareholders as it now sets us on a path towards development. This result places Ema as one of the largest ionic rare earths deposits in the world. The team has done a tremendous job in getting such a large MRE defined in less than 1 year, which now confirms the immense potential of the Ema project in Brazil.
Not only do we have a massive mineral resource of >1 billion tonnes but also significantly we have >300 million tonnes at grades close to 1,000ppm which will assist in generating positive financial cash flow models.
Opportunities to increase both grade and tonnage remain high due to the extremely conservative global specific gravity (SG) of 1.34 which was applied to the estimated volumes. Additional deeper, less weathered samples from the higher-grade horizon is expected to result in significantly higher sg’s.
With only 46% of the total area drilled, the team is confident of increasing not only tonnages but believes the opportunities to also increase the grade are well founded and will be tested through the next round of drilling commencing over the coming months. BCM is now well on its way to establishing the Company as a global rare earths leader.”
Click here for the full ASX Release
This article includes content from Brazilian Critical Minerals Limited, licensed for the purpose of publishing on Investing News Australia. This article does not constitute financial product advice. It is your responsibility to perform proper due diligence before acting upon any information provided here. Please refer to our full disclaimer here.
ChemX Materials
Overview
ChemX Materials (ASX:CMX) is a critical materials company developing innovative processing technology to produce high purity alumina for advanced technology and clean energy applications.
ChemX Materials’ 100 percent owned, Australian patented HiPurA® process technology offers a low cost and energy intensity production method to produce high purity alumina (HPA).
HPA is used in advanced technology and clean energy applications including lithium-ion batteries, LEDs, semiconductors and synthetic sapphires. Synthetic sapphires are critical in the production of applications such as smart watches, iPhones and laptop screens.Company Highlights
- ChemX Materials Limited (ChemX Materials) is an Australian company developing an innovative, processing technology to produce high-purity alumina (HPA), this process is called HiPurA®.
- ChemX Materials owns 100 percent of HiPurA® and was granted an Australian patent for this technology in January 2024.
- High purity alumina is used in advanced technology and clean energy applications including lithium-ion batteries, LEDs, semiconductors, smart watches and iPhones.
- The HiPurA® process is modular, scalable and uses a readily available aluminous chemical as its feedstock, therefore is not reliant on mine production offtake, all of which enable the technology to be deployed close to end users' manufacturing operations.
- ChemX Materials has proven HiPurA® can produce above 4N (99.99 percent) high purity alumina at micro plant scale. This testwork indicates HiPurA® is low in cost and energy intensity.
- ChemX Materials is constructing a pilot plant to demonstrate HiPurA® can work at scale, which is the next step towards commercialisation. The pilot plant construction is underway and on track for commissioning in June 2024.
Key Business Segments
High Purity Alumina Processing Technology - HiPurA®
ChemX Materials is developing an innovative processing technology to produce high-purity alumina (HPA). This process is called HiPurA®. ChemX Materials owns 100 percent and holds an Australian patent for HiPurA®. ChemX Materials has proven HiPurA® can produce above 4N (99.99 percent) pure HPA at micro plant scale. This test work has also demonstrated that HiPurA® is superior compared to alternative technologies, offering several advantages, including:
- Lower costs – both capital and operating.
- Independent feedstock - – process is not tied to mine production and uses a readily available aluminous industrial chemical.
- Easily scalable – production output can increase based on demand.
- Modular – can be built near end users’ manufacturing operations.
- Optionality – patented technology can be licenced to end users.
- Lower carbon footprint – technology is not energy intensive.
HPA has several applications, the most important being lithium-ion batteries used in electric vehicles (EVs) and energy storage applications. HPA is used in the coating of the battery separator to enhance safety and performance. The outlook for EVs is very promising. With the adoption of EVs growing rapidly year on year as governments across the globe deploy domestic incentives and regulations to reduce the use of internal combustion engines to meet net zero targets.
HPA is also a key in the production of synthetic sapphire, which is used in LEDs, semiconductors, lasers, optical lenses and medical devices.
ChemX Materials has proven its HiPurA® technology can achieve above 99.99 percent (4N) HPA purity at micro plant scale. Following the technical success of the micro plant, ChemX Materials is constructing a 24 tpa pilot plant in Western Australia. The pilot plant is expected to be operational in June 2024.
In January 2024, ChemX Materials was granted an Australian Patent for its innovative HiPurA® technology. Based on the success of the Australian patent, it is anticipated that ChemX Materials will be afforded similar protections in other international jurisdictions. The patent is important as it provides intellectual property protection as ChemX Materials seeks to commercialise the technology globally.
HPA production from the pilot plant will be used for customer qualification and marketing purposes. ChemX Materials is actively pursuing commercial opportunities globally. Commercialisation options include:
- Build, own, operate a commercial scale plant to sell high purity alumina to end users.
- Licence the HiPurA® technology for deployment at end users’ manufacturing locations.
High Purity Manganese Project
ChemX Materials is developing a high purity manganese project. The Jamieson Tank project is located on two exploration tenements, EL 5920 and EL 6634 in the Eyre Peninsula in South Australia. These tenements collectively cover an area of 718 km2.
ChemX Materials completed a 94-hole drill program at the Jamieson Tank project, totaling 6,164 metres and released its maiden Mineral Resource Estimate in September 2023. The Mineral Resource Estimate reported 13.1 Mt at 5.7 percent manganese, with 21 percent classified as Indicated and 79 percent classified as Inferred.
High purity manganese has essential applications in lithium-ion batteries as a cathode material. Manganese provides energy density, stability and lower costs and is a critical material for modern battery chemistries. As the world pursues decarbonisation it is forecasted that the demand for manganese will grow.
With the objective of the United States Inflation Reduction Act (IRA) to reduce its reliance on Chinese sources of critical minerals, by 2025, the Jamieson Tank project is an important prospect. China currently supplies around 95 percent of the global manganese sulphate.
The South Australian jurisdiction offers excellent infrastructure. The Jamieson Tank project is in a province that is characterised by rapidly growing renewable energy infrastructure (wind, solar and hydrogen) and access to a local skilled workforce. The Jamieson Tank project is accessible by road, approximately 160 kms from the port of Whyalla and near a major regional airport.
The tenements in which the Jamieson Tank project is located also host kaolin and rare earth elements (REE) deposits. The area has historically been well known and explored for its potential for kaolin. The Kelly Tank exploration target is estimated to be 55 - 130 Mt of extractable kaolin.
In 2022, ChemX Materials undertook a drilling program and identified REE hosted within the kaolin throughout the tenements. The drilling program intersected high-grade REE mineralisation with intervals of up to 5 metres @2,468 parts per million total rare earth oxides from 7 metres. Importantly, it remains open in various directions, providing potential exploration upside for future drill programs.
Management Team
Peter Lee – Chief Executive Officer
20+ years’ experience across mining, metals processing and chemical industries within Canada and Australia. Lee has held technical leadership roles with companies including Rio Tinto, BHP, Roy Hill and WSPGolder. He is an expert in refining and electrochemical processes and a registered P. Eng Engineers and Geoscientists of British Columbia, Canada, and a member of AusIMM and AICD.
Warrick Hazeldine – Non-executive Chair
Warrick Haseldine has more than 20 years of experience across capital markets and strategic communications with a focus on battery materials. He is the co-founder of advisory firm Cannings Purple, and former chair and non-executive director of Global Lithium Resources Ltd (ASX:GL1). Hazeldine is currently a director of Surfing WA, advisory board member of Curtin University, and a non-executive director of Purple.
Stephen Strubel – Executive Director and Company Secretary
Stephen Strubel is the company founder with 20 years’ experience in finance and corporate governance. Struber held a senior leadership role with Patersons Securities and has been a director and company secretary for ASX-listed companies. He holds a bachelor’s degree in banking and international trade from Victoria University and an MBA from the Australian Institute of Business.
Alwyn Vorster – Non-executive Director
Alwyn Vorster has 30+ years’ experience in the resources industry, spanning several commodities including rare earths, iron ore, bauxite, potash and salt. Vorster has several senior leadership positions including chief executive officer of Hastings (ASX:HAS) and managing director of BCI Minerals (ASX:BCI) and Iron Ore Holdings (ASX:IOH). Vorster is currently non-executive director of Lindian Resources (ASX:LIN) and Arrow Minerals (ASX:AMD).
Rock Chips of up to 3.22% TREO Identified in Newly Granted Machinga Licence
Heavy rare earths (HREE) and Niobium (Nb) explorer DY6 Metals Ltd (ASX: DY6) (“DY6”, “the Company”) is pleased to announce the receipt of the assay results for the second comprehensive reconnaissance rock chip and soil sampling program completed at Machinga Main Licence Area Anomaly (Figure 1).
HIGHLIGHTS
- Sampling program consisting of a total of 727 rock chips and soil samples recently completed into recently granted licence area at Machinga
- Full assay results received from soil and rock chip sampling program at Machinga:
- 305 soil samples were taken on a 200m x 100m grid
- Assays returned up to 0.49%TREO
- 21% of all soil samples returned >1000ppm (>0.1%) TREO
- 422 rock chip samples were taken on a nominal 50 x 50m grid
- Assays returned up to 3.22% TREO, with 5 samples returning 1%+ TREO
- Rock chips also returned up to 0.75% Nb2O5
- 305 soil samples were taken on a 200m x 100m grid
- Two anomalies west of the main road of the newly granted licence show a much more continuous character of higher TREO results - highlighting the scale potential of REE mineralisation in this new area of the licence
- Assays will assist in refining targets ahead of next phase of drilling at Machinga
Machinga Soil and Rock Chip Sampling Program
Following on from the DDH assays reported in December 2023, DY6 conducted a comprehensive geochemical sampling over the Machinga exploration licences (EL0705/EL0529) initially, targeting the western side of the maiden drilling in Area 1 and 2 in licence EL0529 before moving to the anomalous soil responses in the southern region of Machinga main (EL0705) (Figure 1). The program consisted of a total of 727 samples which included 422 rock chips and 305 soils. The full list of assay results is included in Table 1.
Geochemical sampling was extended into the new licence and over the anomalous southern region covering and area of approximately 3000m x 2000m along a NW-SE strike direction. A previously reported extensive uranium radiometric anomaly, which spans over 7km along the same geological unit (refer ASX release dated 6 July 2023) is being targeted by the Company.
Click here for the full ASX Release
This article includes content from DY6 Metals, licensed for the purpose of publishing on Investing News Australia. This article does not constitute financial product advice. It is your responsibility to perform proper due diligence before acting upon any information provided here. Please refer to our full disclaimer here.
Rare Earth Elements Prices 101 (Updated 2024)
From electric vehicles and wind turbines to water treatment and nuclear power, rare earth elements (REE) are critical for many of the technologies necessary for a cleaner, greener economy and world. However, understanding pricing for these commodities can be tricky.
There are 17 rare earth minerals in all, and each is classified under different groups — typically light rare earths and heavy rare earths. Prices are available for multiple individual and mixed products, including for the rare earths used in permanent rare earth magnets, so it can all seem a bit overwhelming.
“The supply chain for rare earth materials and permanent magnets is complex, regionally concentrated and marked by a lack of transparent pricing,” according to international price reporting agency Fastmarkets. “This can lead to unpredictable costs, budgeting difficulties and supply insecurity. Geopolitical tensions further add to this uncertainty.”
Read on for a short introduction to the rare earth elements market and prices.
What is China's role in rare earths pricing?
First and foremost, it’s important to know that China is the main driver when it comes to REE prices and the rare earths market as a whole. The country is the world’s leading rare earths producer by a wide margin, and despite efforts elsewhere also controls about 87 percent of global rare earths refining capacity.
China has such a monopoly on the sector that REE prices spiked in 2010 and 2011 when the country cut exports. That sparked a boom for rare earths companies and mining projects around the world, as they sought to create reliable sources of rare earths supply outside of China. However, many failed to thrive when REE prices fell again.
In 2014, the World Trade Organization ruled against Chinese export quotas for rare earths, and China removed its industry caps in January 2015. The country also eliminated its export tariffs for rare earths in May 2015, leading to a further fall in REE prices. More recently, it banned the export of technology to make rare earth magnets.
The ongoing trade war between the US and China adds a layer of complication to the rare earth metals sector. Recognizing China's key place in the market, the US is undertaking various efforts to build its own supply.
In February 2021, US President Joe Biden signed an executive order aimed at reviewing shortcomings in the nation's domestic supply chains for rare earths, medical devices, computer chips and other critical resources. The next month, the US Department of Energy announced a US$30 million initiative to research and secure domestic supply chains for rare earths, along with battery metals such as cobalt and lithium.
In June 2022, Biden went even further, invoking the Defense Product Act to increase the domestic production of critical minerals such as rare earths, as well as to fund feasibility studies and expand existing resources. Furthermore, in September 2022, the Biden government announced US$156 million in funding to support the creation of "first-of-a-kind facility to extract and separate REEs and critical minerals from unconventional sources like mining waste."
Later, in July 2023, the Department of Energy put up US$32 million to build facilities for the production of REEs and other critical minerals from domestic coal-based resources.
Even with these efforts, China remains the heavyweight for now, so it’s important that investors interested in the rare earths space keep track of what the country is up to in terms of production.
Where to find rare earths prices?
Unlike prices for gold and silver, rare earth elements prices are hard to come by, as there is no widely used public exchange for rare earths. Firms such as Fastmarkets put out regular price assessments based on surveys of traders, consumers and other market participants; this information is available for a fee.
Price forecasts and other information can also be found via analyst firms and pricing forums such as Adamas Intelligence, Argus Media, Technology Metals Research and Asian Metal.
Which rare earths are the most important?
Rare earths are used in a range of different technologies, and demand is higher for some than others. They can be divided into “heavy” and “light” categories based on atomic weight, with heavy often being more sought after.
That said, light rare earths can be important too. Neodymium and praseodymium, used in rare earth magnets, fall into the light category. These and other elements used in rare earth permanent magnets, such as dysprosium, can be quite expensive. Neodymium and praseodymium have also been in the spotlight due to electric vehicles.
The concentration of different rare earths varies within each given deposit, but usually a deposit is dominated by either heavy or light rare earths, with some elements being much more abundant. Cerium, for example, is the most abundant rare earth, and is more plentiful in the Earth’s crust than copper.
Both cerium and lanthanum, used in things such as alloys in steelmaking and industrial catalysts, are oversupplied. As a result, they are priced quite a bit lower than most rare earth magnet materials.
Another group of rare earths to consider is those used in phosphors, or phosphorescent materials, which are the active component that adds color in fluorescent light bulbs and other lighting applications. Yttrium is fairly inexpensive when compared to more rare and therefore more expensive metals such as europium and terbium.
Rare earth concentrates and pricing
Think rare earths are easy to separate? Think again.
As mentioned, rare earths deposits contain various types of rare earths, not to mention a range of other impurities such as uranium and thorium, which can be troublesome to dispose of. The separation process can be difficult and lengthy, and so far separators outside of China have not managed to undercut producers within the country.
The best-known producer of separated rare earths outside of China is Lynas Rare Earths (ASX:LYC,OTC Pink:LYSCF), which owns and operates the Mount Weld mine in Western Australia and a separation facility in Malaysia. In 2023, Lynas received a US$258 million contract from the US Department of Defense to build a rare earths separation facility in Texas.
At the moment, California's Mountain Pass operation, owned by MP Materials (NYSE:MP), is the only working US rare earths mine and processing facility. The facility, which has a storied history, produces high-purity separated rare earth oxides, including lanthanum, cerium and neodymium-praseodymium oxide.
Other big companies developing REE separation operations include Energy Fuels (TSX:EFR,NYSEAMERICAN:UUUU). In Utah, the firm is completing Phase 1 REE separation infrastructure at its White Mesa mill, which will result in separated neodymium-praseodymium capacity of 800 to 1,000 metric tons per year.
According to Adamas Intelligence, "Elsewhere, projects across Sweden, South Africa, Australia and other countries aim to extract rare earths from mine waste and byproducts that could supply 8% of global demand successful."
It’s important to keep in mind that rare earths within a mixed concentrate won’t fetch as high a price as those that are already separated. When looking at technical reports from junior miners, be sure to check that companies have accounted for this discount when calculating their rare earths basket price, which is the price for all the rare earths bundled into a single number based on the distribution of different rare earths within the deposit.
This is an updated version of an article originally published by the Investing News Network in 2015.
Don’t forget to follow us @INN_Resource for real-time updates!
Securities Disclosure: I, Melissa Pistilli, hold no direct investment interest in any company mentioned in this article.
Editorial Disclosure: Energy Fuels is a client of the Investing News Network. This article is not paid-for content.
Asra Declares Maiden MRE for Yttria Ree Deposit
Asra Minerals Limited (ASX: ASR) is pleased to announce its maiden JORC (2012) Mineral Resource Estimate (MRE) for its 100%-owned Yttria Rare Earth Element (REE) Deposit, located on its Mt Stirling Project near Leonora in the Goldfields region of Western Australia.
Highlights:
- Maiden Mineral Resource Estimate (MRE) of 15Mt at 490ppm TREO for Asra’s 100%-owned Yttria Rare Earth Elements (REE) Deposit in the Goldfields of Western Australia
- MRE with uniquely high ratio of 55% Heavy and 22% Magnet Rare Earth Oxides
- More than half of the MRE within the higher confidence ‘Indicated’ classification
- MRE only represents a very small part of the prospective land area
- Significant REE Exploration Target defined along strike of Yttria, extending over a corridor more than 20km long on Asra’s Mt Stirling project near Leonora
- Quality of MRE underpinned by recent positive metallurgical results and Independent resource estimation by Snowden-Optiro Consultants
- High scandium oxide content of 67ppm identified in REE mineralisation domain, as well as additional scandium mineralisation above and below the REE horizon
The MRE of 15Mt at 490ppm Total Rare Earth Oxide (TREO) with 67ppm scandium oxide (Sc2O3) covers the first 2km of strike at the Yttria REE Deposit, with 55% of the tonnes within the Indicated JORC Category.
The MRE has an exceptionally high ratio of 55% Heavy Rare Earth Oxides (HREO) incorporating high value dysprosium (Dy) and terbium (Tb) Rare Earth Oxides.
A REE Exploration Target* of an additional 110-300 Mt at 450-550 ppm TREO at Mt Stirling presents Asra with the opportunity to extend the current Mineral Resource at Yttria.
Importantly, the Yttria Deposit has minimal overburden and presents very favourably to simple open-cut mining, supported by Tier 1 transportation links and other required infrastructure in the world-class Goldfields mining region.
Asra’s Managing Director, Rob Longley commented:
“Our maiden MRE for the Yttria REE Deposit is an exciting moment for Asra Minerals and our shareholders, placing us another step closer to delivering the critical minerals needed to charge global electrification.
“This MRE sits neatly within our extensive gold portfolio at Mt Stirling in the world-renowned Goldfields region, where we also hold a current gold JORC Resource of 152,000 oz @ 1.7g/t Au across the project1.
“Our focus will now turn to progressively expanding and growing the REE resource at Mt Stirling and utilise these learnings for exploration activity at our nearby Kookynie West Project, just south of Leonora.
“I look forward to providing further updates as we venture into this next phase of exploration across our multi- commodity portfolio in Western Australia.”
Click here for the full ASX Release
This article includes content from Asra Minerals Limited, licensed for the purpose of publishing on Investing News Australia. This article does not constitute financial product advice. It is your responsibility to perform proper due diligence before acting upon any information provided here. Please refer to our full disclaimer here.
Latest News
Latest Press Releases
Related News
TOP STOCKS
Investing News Network websites or approved third-party tools use cookies. Please refer to the cookie policy for collected data, privacy and GDPR compliance. By continuing to browse the site, you agree to our use of cookies.