THIS ANNOUNCEMENT CONTAINS INSIDE INFORMATION FOR THE PURPOSES OF ARTICLE 7 OF REGULATION 2014/596/EU WHICH IS PART OF DOMESTIC UK LAW PURSUANT TO THE MARKET ABUSE (AMENDMENT) (EU EXIT) REGULATIONS (SI 2019/310) ("UK MAR"). UPON THE PUBLICATION OF THIS ANNOUNCEMENT, THIS INSIDE INFORMATION (AS DEFINED IN UK MAR) IS NOW CONSIDERED TO BE IN THE PUBLIC DOMAIN.

 

NOT FOR RELEASE, PUBLICATION OR DISTRIBUTION, IN WHOLE OR IN PART, DIRECTLY OR INDIRECTLY IN OR INTO THE UNITED STATES, AUSTRALIA, CANADA, JAPAN, THE REPUBLIC OF SOUTH AFRICA OR ANY OTHER JURISDICTION WHERE TO DO SO WOULD CONSTITUTE A VIOLATION OF THE RELEVANT LAWS OF SUCH JURISDICTION.

 

12 September 2022

 

Cobra Resources plc

 ("Cobra" or the "Company")

 

Wudinna Project Update

 

Additional High-Grade Rare Earths Defined Across Regional Targets

 

Cobra, a gold, rare earth and IOCG exploration company focused on the Wudinna Project in South Australia, announces the final tranche of results from 32 holes that were drilled as part of an extensive 91-hole, 4,000m aircore drilling programme in June 2022. The remaining results of this programme have delivered further extensive clay hosted Rare Earth Elements ("REE") mineralisation defined across six further target areas.

 

· High-grade mineralisation supporting scalable footprints:

 

o  At Thompson, where CBAC0085 intersected 32m at 1,336 ppm Total Rare Earth Oxide ("TREO") from 8m, with the Magnet Rare Earth Oxide ("MREO"¹) equating to 25% of the TREO

 

o  Peripheral to the gold resource at Barns, where CBAC0065 intersected 32m at 920 ppm TREO from 24m, and the MREO equates to 26% of the TREO

 

o  At Anderson, where CBAC0075 intersected 8m at 2,535 ppm TREO from 18m, and the MREO equates to 29% of the TREO

 

o  At Bradman, where CBAC0059 intersected 10m at 869 ppm TREO from 32m, and the MREO equates to 24% of the TREO

 

^{Note 1} MREO = Nd₂O₃ + Pr₆O₁₁ + Dy₂O₃ + Tb₂O₃

 

· Regionally extensive mineralisation occurrence: 73 of the 91 holes (80%) drilled return intersections above a 350 ppm TREO cut-off grade, whilst 61 holes return intersection grades greater than 500 ppm TREO   

 

· Desirable lithologies : mineralisation occurs within weathered saprolite horizons indicative of highly desirable crustal elution or ionic clay hosted rare earths. Logged mineralisation coincides with kaolin, montmorillonite and illite clays that have high adsorption capacities

 

· Conditions supportive of ionic adsorption: extensive pH testing of drill samples demonstrates variable conditions across prospects, saprolite horizons, and types of clays that are associated with high REE adsorption capacity. Intersections elevated in both heavy and magnet rare earths have a strong correlation to pH 6-7, an environmental condition that results in increased adsorption potential of clays that yield, low cost, high metallurgical recoveries

 

· Significant REE intersections include:

 

o  28m at 557 ppm TREO from 22m [CBAC0058]

 

o  10m at 869 ppm TREO from 32m, including 4m at 1,662 ppm TREO from 32m [CBAC0059]

 

o  18m at 701 ppm TREO from 12m, including 4m at 1,047 ppm TREO from 16m [CBAC0062]

 

o  32m at 920 ppm TREO from 24m, including 4m at 2,174 ppm TREO from 24m [CBAC0065]

 

o  8m at 2,535 ppm TREO from 18m [CBAC0075]

 

o  19m at 759 ppm TREO from 22m, including 4m at 1,145 ppm TREO from 30m [CBAC0078]

 

o  15m at 614 ppm TREO from 32m [CBAC0081]

 

o  32m at 1,336 ppm TREO from 8m, including 14m at 1,711 ppm TREO from 8m [CBAC0078]

 

· A further 750 assays from 76 historic drillholes are anticipated from prospective rare earth targets at Thompson and Anderson. These results are expected to be received during September

 

Rupert Verco, CEO of Cobra, commented :

 

"The aircore programme has been highly successful, demonstrating grades, widths, and scalability of a highly desirable magnet rare earths province while confirming further along-strike gold mineralisation at Clarke.

 

As we extend our knowledge of rare earth mineralisation at the Wudinna Project, there are further positive indications for ionic style mineralisation which lends itself to low-cost metallurgical extraction. We eagerly anticipate further rare earth results from the Thompson and Anderson pulp and drillhole re-analyses.

 

We are excited to commence RC drilling later this month aimed at adding gold ounces to our existing resource and defining a potentially significant maiden rare earth resource."

 

Forthcoming Newsflow

 

September 2022

· Rare earth assays from 750 pulps from 76 drillholes from the Thompson and Anderson prospects

· Results of Accelerated Discovery Initiative ("ADI") co-funded Loupe TEM survey

· Interim financial results

· Reverse Circulation ("RC") drilling to commence

 

October 2022

· Project JV earn-in milestone

· RC drilling results (initial)

· Project JV 75% earn-in milestone

 

November 2022

· RC drilling results (remainder)

· Results of ADI co-funded Controlled Source Audio-frequency Magneto-tellurics ("CSAMT") EM survey

 

December 2022

· Maiden rare earth resource estimate

· Updated gold mineral resource estimate

 

Further discussion and analysis of results follows in the appendix below.

 

Enquiries:

 

Cobra Resources plc Rupert Verco (Australia) Dan Maling (UK)	via Vigo Consulting +44 (0)20 7390 0234
SI Capital Limited (Joint Broker) Nick Emerson Sam Lomanto	+44 (0)1483 413 500
Peterhouse Capital Limited (Joint Broker) Duncan Vasey Lucy Williams	+44 (0)20 7469 0932
Vigo Consulting (Financial Public Relations) Ben Simons Charlie Neish Kendall Hill	+44 (0)20 7390 0234

 

The person who arranged for the release of this announcement was Rupert Verco, Managing Director of the Company.

 

About Cobra

Cobra is defining a unique multi-mineral resource at the Wudinna Project in South Australia's Gawler Craton, a tier one mining and exploration jurisdiction which hosts several world-class mines. Cobra's Wudinna tenements, totalling 3,261 km², contain extensive orogenic gold mineralisation and are characterised by potentially open-pitable, high-grade gold intersections, with ready access to infrastructure. Cobra has 22 orogenic gold targets outside of a current 211,000 Oz JORC Mineral Resource Estimate. In 2021, Cobra discovered rare earth mineralisation proximal to and above gold mineralisation. The grades, style of mineralogy and intersect widths are highly desirable while the mineralisation has been demonstrated to be regionally scalable. The Company is also advancing a pipeline of IOCG targets.

 

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Competent Persons Statement

Information and data presented within this announcement has been compiled by Mr Robert Blythman, a Member of the Australian Institute of Geoscientists ("MAIG"). Mr Blythman is a Consultant to Cobra Resources Plc and has sufficient experience, which is relevant to the style of mineralisation, deposit type and to the activity which he is undertaking to qualify as a Competent Person defined by the 2012 Edition of the Australasian Code for Reporting Exploration Results, Mineral Resources and Ore Reserves (the "JORC" Code). This includes 10 years of Mining, Resource Estimation and Exploration relevant to the style of mineralisation.

 

Information in this announcement has been assessed by Mr Rupert Verco, a Fellow of the Australasian Institute of Mining and Metallurgy ("FAusIMM"). Mr Verco an employee of Cobra Resources Plc has more than 16 years relevant industry experience, which is relevant to the style of mineralisation, deposit type and to the activity which he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the Australasian Code for Reporting Exploration Results, Mineral Resources and Ore Reserves (the "JORC" Code). This includes 10 years of Mining, Resource Estimation and Exploration relevant to the style of mineralisation.

 

Information in this announcement relates to exploration results that have been reported in the following announcements:

 

"Wudinna Project Update - Initial Gold and Rare Earth Results", dated 14 December 2021

"Wudinna Project Update - Re-Analysis Defines Large Rare Earth Mineralisation Footprint Above Baggy Green and Clarke Gold Mineralisation", dated 4 May 2022

"Wudinna Project Update - Northern Drillholes at Clarke Intersect Additional Gold Mineralisation, Additional Rare Earth Intersections Directly Above Gold Zones", dated 7 February 2022

"Wudinna Project Update - Stage 4 Re-Analysis Demonstrates Large Scalability of Rare Earth Mineralisation, Preliminary Metallurgical Testing Provides Encouraging Recovery Potential", dated 20 June 2022

"Wudinna Project Update - Aircore Drilling Yields exceptional Gold and Rare Earth Results at Clarke", dated 16 August 2022

"Wudinna Project Update - Further Aircore Drilling Results Demonstrate Regional Scalability of Rare Earths", dated 31 August 2022

 

APPENDIX

 

Further information

 

The growing strategic, environmental, and economic importance of rare earth metals - particularly the magnet rare earth metals - last year prompted the Company to submit pulps from drilling at its Wudinna Project for REE analysis. Significant intersections of TREO assays in excess of 500 ppm were recognised within the kaolinised clays of the saprolite across all 14 RC drillholes.

 

Prior to commencing the 2022 field programme, a comprehensive re-analysis programme defined extensive REE mineralisation over a 4 km² footprint, where:

 

· Elevated REE mineralisation occurs within the weathered saprolite zone, above and proximal to gold mineralisation across the Clarke and Baggy Green prospects

 

· X-Ray Diffraction analysis performed by the Commonwealth Scientific and Industrial Research Organisation supports that a component of REE bursary is adsorbed to the primary clay particles, being kaolin and montmorillonite, in similar fashion to the highly desirable Ion Adsorbed Clay ("IAC") hosted deposits of southern China

 

· Preliminary metallurgical test work focusing on extraction techniques adopted to ionic phase mineralisation using H₂SO₄ as a lixiviant, and performed by Australia's Nuclear Science and Technology Organisation, yielded recoveries of up to 34% Total Rare Earth Element ("TREE") from samples across two holes at Clarke

 

· The footprint is unconstrained in all directions

 

· The potential for REE crustal elution style mineralisation has been demonstrated at several regional targets across the 1,832 km² land tenure

 

The 2022 aircore programme was designed with dual gold and rare earth discovery objectives and several locations were drilled with the sole objective of exploring for rare earth minerals. The results of this work provide the outline of an emerging rare earth mineral province.

 

Nature of mineralisation

 

· Rare earth mineralisation is regionally extensive in weathered (saprolite) zones developed on basement rocks

 

· Rare earth element content, mineralisation thickness, magnet rare earth abundance, and the relationship between REEs and gold occurrences varies across the area investigated

 

· The nature of controlling structures that act as conduits for gold mineralisation are also thought to act as catalysts for the secondary processes that promote weathering and subsequent mobilisation of REEs to the saprolite

 

· Further work is designed to identify the lithotypes and structural features which underlie the mineralisation of greatest economic interest

 

· Post drilling interpretation, follow-up geophysical and geochemical characterisation will assist in the recognition of further prospective locations

 

Recovery characteristics of mineralisation

 

· Preliminary metallurgical testwork has provided positive indications that REE bursary is bound to clay particles. The identification of a technique or techniques to optimally recover rare earth metals from the saprolite mineralisation requires further testing

 

· pH testing of drill samples demonstrates variable conditions across prospects, saprolite horizons, and types of clays that are associated with high REE adsorption capacity

 

· The nature of the bonds which adsorb the REEs within enclosing clay appear dependent upon the local chemical environment:

 

o  Where local pH is greater than optimal (moderately alkaline), colloidal bonding is more abundant and a positive cerium anomaly is generally present

 

o  Where local pH is in an optimal range, ionic bonding appears favoured, the valuable MREO mineral suite is enhanced (pH 5-6.8), and REE baskets generate negative cerium anomalies

 

o  Where local pH is lower than optimal (acidic), REEs appear to have remained mobile and enhanced grades are not retained within the saprolite zone 

 

Further work

 

Geophysical processing : Loupe TEM data is currently being processed from the Clarke prospect, where results are hoping to demonstrate a cost effective and efficient approach to determining the prospectivity of the saprolite conditions for both gold and rare earth mineralisation. A secondary CSAMT survey is planned for later in the year to better understand the deeper structural controls on both gold and REE mineralisation.

 

Drilling and assay: the selection of drill locations for the September planned RC programme is being assisted by the results of the aircore drilling and Loupe TEM survey. The primary objective of the upcoming RC drilling is to further define both additional gold and rare earth mineralisation. At the appropriate time, these results will be incorporated into an updated gold mineral resource and a maiden rare earth resource.

 

Drilling at Clarke has been designed to:

 

1.  Best inform a resource estimation. Approximately 14-16 holes are planned to be drilled for ~2,000m, where the northern continuity defined in aircore drilling will be the primary focus for adding ounces

2.  Provide high-grade REE samples from areas containing optimal lithologies and pH conditions that promote and retain ionic REE adsorption

 

Mineral speciation and recovery testwork: both components will be iterative processes. As both the extent and nature of mineralisation is better defined, processes and techniques will be studied to understand how to most efficiently and cost effectively recover the most valuable rare earth minerals from different clay bonding associations.