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Share Name | Share Symbol | Market | Type | Share ISIN | Share Description |
---|---|---|---|---|---|
Alien Metals Limited | LSE:UFO | London | Ordinary Share | VGG017351021 | COM SHS NPV (DI) |
Price Change | % Change | Share Price | Bid Price | Offer Price | High Price | Low Price | Open Price | Shares Traded | Last Trade | |
---|---|---|---|---|---|---|---|---|---|---|
0.00 | 0.00% | 0.175 | 0.17 | 0.18 | 0.175 | 0.175 | 0.175 | 191,767 | 08:00:00 |
Industry Sector | Turnover | Profit | EPS - Basic | PE Ratio | Market Cap |
---|---|---|---|---|---|
Miscellaneous Metal Ores,nec | 0 | -2.38M | -0.0004 | -4.25 | 10.82M |
TIDMUFO
RNS Number : 5175M
Alien Metals Limited
22 September 2021
Trading Symbols
AIM: UFO
FWB: I3A1
22 September 2021
Alien Metals Ltd
("Alien" or "the Company")
Alien Metals announces maiden Inferred iron ore Resource in excess of 10Mt at 60.4% Fe
Follow the link to view the announcement in full including all figures:
http://www.rns-pdf.londonstockexchange.com/rns/5175M_1-2021-9-21.pdf
Alien Metals Ltd (LSE AIM:UFO), a global minerals exploration and development company, is pleased to update the market on the Hancock Iron Ore Project in the Pilbara region of Western Australia and specifically the publication of a maiden Inferred Resource in excess of 10Mt.
Highlights
-- The initial Inferred JORC compliant resource stands at 10.4Mt @ 60.4% Fe including 7.8Mt @ 60.1% at the Sirius Extension target, 1.5Mt @ 61.2% at the Ridge E target and 1.1Mt @ 61.9% Fe at the Ridge C target.
-- The Mineral Resource Statement ("MRE") has been restricted to material that falls within an optimised open pit shell and within the tenement boundary.
-- Low levels of deleterious elements indicating that Hancock could produce high-quality Direct Shipping Ore (DSO) product.
-- Ridges E and C are only partially tested to date, and the Company feel they have considerable potential to define further DSO grade material.
Bill Brodie Good, CEO & Technical Director of Alien Metals, commented:
"We are really pleased to have delineated in excess of 10Mt of DSO iron ore with our initial MRE at Hancock. With only a quarter of the Western Ridges targets tested to date, we believe there is considerable scope to grow the DSO resource over the next 6 months.
"Having a sizeable maiden resource is encouraging; having DSO material with low impurities is even more pleasing and we are pushing ahead on the scoping study work with Mining Plus and continued planning for the Phase 3 drilling programme."
Figure 1 shows the location of the Hancock Project and Table 1 shows the mineral resource statement. The Hancock Project, tenement number E47/3954, is approximately 10 km north of Newman in the prolific iron ore producing Pilbara region of Western Australia.
A description of the Mineral Resource Estimate is given in the following section with the work summarised in JORC Table 1 located in Appendix 1.
Figure 1: Location of Hancock Iron Ore Project, Western Australia
Table 1: Mineral Resource Statement, Hancock Iron Ore Project, Alien Metals, September 2021
Target Mass (Million tonnes) Average Value ------------------ ---------- Classification Al(2) Category Fe SiO(2) O(3) P LOI MnO ------------------ ---------- % % % % % % ---------------- ------------------ ---------- ----- ------- ------ ----- ---- ----- Inferred Sirius Extension 7.8 60.1 4.1 3.72 0.17 5.2 0.05 ------------------ ---------- ----- ------- ------ ----- ---- ----- Ridge E 1.5 61.2 4.8 3.38 0.13 3.5 0.02 ----------------------------------- ---------- ----- ------- ------ ----- ---- ----- Ridge C 1.1 61.9 4.4 2.93 0.12 3.5 0.03 Total 10.4 60.4 4.2 3.6 0.16 4.8 0.04 ---------- ----- ------- ------ ----- ----
Mineral Resource Estimation Summary
The Mineral Resource Estimate was completed by Baker Geological Services Ltd ("BGS"), being an independent consultancy to Alien. The Mineral Resource Statement has been classified by Competent Person, Howard Baker (FAusIMM(CP)) in accordance with guidelines contained in the JORC Code. Due to the Covid-19 Pandemic, Mr Baker of BGS has not been able to visit the project and observe the exploration activities. As such, BGS has relied upon the experience of the team employed by Alien and the QA/QC practices adopted. The Mineral Resource Statement has an effective date of 16 September 2021. Mineral Resources that are not Mineral Reserves have no demonstrated economic viability. BGS and Alien are not aware of any factors (environmental, permitting, legal, title, taxation, socio-economic, marketing, political, or other relevant factors) that have materially affected the Mineral Resource Estimate.
The Mineral Resource Estimate covers three targets within the tenement boundary. These are the Sirius Extension Target, Ridge C and Ridge E, that form part of the Western Ridges prospect. All targets are shown in Figure 2 and Figure 3, along with the drill collars / traces and the final optimised pit shell used for reporting the final Mineral Resource Statement. The topographic surface shown in Figure 2 highlights the prominent ridges within the tenement.
Figure 2: Tenement boundary and target location. Drill collars shown in green, and the optimised pits shown in red
Figure 3: Tenement boundary and target location. Drill traces coloured by Fe% and the optimised pits shown in red
Geology and Geological Interpretation
The tenement area consists of a series of low east/west running rocky ridge lines separated by shallow valleys. The area has been structurally deformed with the presence of numerous fold hinges, some isoclinal, but all trending east/west with a shallow (<34deg) plunge.
Most of the ridge lines consist of Banded Iron which is part of the Weeli Wolli Formation. The Weeli Wolli Formation is described as a thick succession of jaspilite, shale, and dolerite overlying the Brockman Iron Formation. The iron formations stand out as ridges on which there is some exposure, but the intervening shale and dolerite are rarely exposed.
The logging and assay data has been used to define the mineralised Banded Iron Formation ("BIF") units along with a weathered cap located at surface where possible. At the Sirius Extension target, a steeply dipping BIF unit has been modelled along with a weathered cap domain. The BIF domain has been further subdivided into low / high silica domains following a review of geochemical data. Figure 4 shows the BIF/ Cap domains with Figure 5 showing the division of the BIF domain into high and low silica domains.
Figure 4: Sirius Extension BIF (Brown) and Weathered Cap (Blue)
Figure 5: Sirius Extension High Silica domain (purple) and Low Silica domain (red)
At the Western Ridges Prospect, Ridge C has been modelled to contain a single BIF domain and a weathered cap domain, while Ridge E has been modelled to contain two separate BIF domains. No weathered cap has been modelled at Ridge E. At both Ridge C and Ridge E, limited data restricts the interpretation with the overall dip of the mineralised units being reliant on mapping data with a dip of between 15deg and 20deg being used to guide the modelling process.
Figure 6: Ridge C and Ridge E BIF and Cap domains
Exploration Summary
Alien undertook two Reverse Circulation (RC) drilling programs at the project between January and June 2021. Table 2 summarises the drilling meters completed at each target along with the number of Fe assays collected. The data presented for the Sirius Extension target includes four historic drillholes completed by Volta Mining Pty Ltd in 2014. The drillhole locations are shown in Figure 2 to Figure 6.
Table 2: Drilling meters completed at each target
Target No. of Drillholes Total Meters Drilled No. Fe Assays (m) ------------------- ------------------ --------------------- -------------- Sirius Extension* 20 1,956 1,506 Ridge C 20 796 550 Ridge E 27 1,665 925 ------------------- ------------------ --------------------- -------------- Total 67 4,417 2,981 ------------------- ------------------ --------------------- --------------
*incl. four historic drillholes completed by Volta Mining Pty Ltd for 475m
The RC drilling was used to obtain 1 m samples via a 4-way splitter from which 3 kg was pulverized to produce a 30 g charge for fire assay. Logging was completed on all RC chips. Drilling challenges including sample recovery and the presence of water. In addition, logging was not consistent across drill programmes with clay and mineralised BIF material being interchanged. As such, the modelling has placed a reliance on the geochemical data.
All samples generated by Alien were dispatched to Intertek Genalysis at Maddington, Perth, WA, and analysed for their Standard Iron Ore Package Analysis with XRF finish, which includes elements Fe, Al, Ca, K, Mg, Mn, Na, P, S and Si. This is the same as the analysis and laboratory used in all Alien's analysis work on these projects to date, to maintain consistency and comparability between all analyses.
In addition, Alien used the industry standard of inserting 5% Certified Reference Material ("CRM") samples and 5% duplicate samples at source. The CRMs are sourced from Geostats Pty Ltd, Perth, WA, a global leader in the manufacture and sale of CRMs.
All QA/QC results are deemed acceptable with adequate variation from the standard acceptable CRM grades received. Duplicate samples also returned acceptable results to ensure that all laboratory analysis results are within international standards and are fit for use in the Mineral Resource Estimate.
Alien did not collect density data as part of this programme with density being applied through a review of analogous project.
Downhole surveys were completed at 30 m downhole intervals and all drillhole collars were surveyed through differential GPS.
Figure 7 shows the RC drilling in progress.
Figure 7: RC drilling in progress, Hancock Iron Ore Project, June 2021
Overall, the data collected has been deemed suitable for use in a Mineral Resource Estimate for the project.
Mineral Resource Estimation
The Mineral Resource Estimate was completed in Leapfrog Software with additional statistical studies completed in Supervisor. Samples were composited into 2 m lengths prior to geostatistical studies and grade estimation.
The composite files for each target were used in a geostatistical study that enabled Ordinary Kriging ("OK") to be used as the main interpolation method for the Sirius Extension target. Robust variograms could not be produced at Ridge C and Ridge E due to the limited data and as such, an Inverse Distance Weighting interpolation was carried out for these targets.
The interpolation used an elliptical search following the predominant dip and dip direction of the geological zones with a variable orientation used within the surficial Cap domains where the topographic surface is a contributing factor to the domain and grade distribution.
For each domain where variography was possible, variography was completed on all assay fields being estimated into the block model, these being Fe, SiO(2) , Al(2) O(3) , P, MnO and LOI. Figure 8 shows the Sirius Extension block model with the model and drillhole file coloured by Fe grade.
A density of 3.0 t/m(3) was applied to all mineralised BIF material with a density of 2.5 t/m(3) applied to the weathered Cap. A density of 2.8 t/m(3) was applied to all external host material.
Figure 8: Sirius Extension Block model and drillhole file coloured by Fe %
The interpolated block model was validated through visual checks and a comparison of the mean input composite and output model grades. As an example, Figure 9 and Figure 10 show SWATH plots for the Sirius Extension high and low silica domains. As shown, a strong correlation exists between the input composite and output block model grades in the easting direction shown.
BGS is confident that the interpolated block grades are a reasonable reflection of the available sample data available.
Figure 9: Sirius Extension Fe SWATH plot, high SiO2 domain
Figure 10: Sirius Extension Fe SWATH plot, low SiO2 domain
Mineral Resource Classification
All deposits have been classified as Inferred Mineral Resources. Primarily, this is due to the lack of density data, the limited data at Ridge C and Ridge E, and the lack of verification diamond drilling to confirm the grade identified through the RC drilling and the drilling challenges observed. That said, continuous packages of mineralised BIF have been identified and BGS is confident that future drilling will increase the classification confidence category assigned.
At the Sirius Extension Target, the base of the Inferred Mineral Resources was restricted to the deepest drillhole intersections within the mineralised body, shown in Figure 11. All mineralised BIF material modelled at Ridge C and Ridge E was classified as an Inferred Mineral Resource with no depth restriction, due to the limited down dip extent of the models, shown in Figure 12 and Figure 13.
Figure 11: Sirius Extension classified model and drillhole traces
Figure 12: Ridge C classified model and drillhole traces
Figure 13: Ridge E classified model and drillhole traces
Open Pit Optimisation
To determine the final Mineral Resource Statement, the model has been subjected to an optimisation exercise to determine the proportion of the material defined that has a reasonable prospect of economic extraction via open-pit mining methods. The optimisation was carried out by independent consultants Mining Plus. In addition, Mining Plus undertook an audit of the Mineral Resource Estimate carried out by BGS with no material issues identified.
The optimisation was based on the mineralised BIF material only. The Cap was excluded from the optimisation and is not currently being reported as a mineralised domain. The optimisation used a baseline metal price of USD210/t, a price that has been exceeded over the course of the previous 12 months. BGS comment that Mining Plus also provided optimised pit shells at a baseline price of USD100/t and USD150/t with very little sensitivity shown in the final Mineral Resource Statement.
The interpretation of the word 'eventual' in this context relates to a bulk commodity where it is reasonable to envisage 'eventual economic extraction' as covering time periods more than 50 years.
No cut-off grade has been applied to the final Mineral Resource Statement due to the general lack of grade sensitivity and the optimisation process undertaken.
At the Sirius Extension Target, approximately 200k tonnes of material has been excluded from the final Mineral Resource Statement as it lies outside of the tenement boundary. The optimisation process did however allow the pit crest to extend beyond the tenement boundary.
This represents the material considered by BGS to have reasonable prospects for eventual economic extraction potential.
Figure 14 to Figure 16 shows the final Mineral Resource within the USD210/t optimised pit shells.
Figure 14: Sirius Extension Mineral Resource within the optimised pit
Figure 15: Ridge C Mineral Resource within the optimised pit
Figure 16: Ridge E Mineral Resource within the optimised pit
Background to Inferred Resource
The statements have been classified by Competent Person, Howard Baker (FAusIMM(CP)) in accordance with the JORC Code. The Mineral Resource Statement has an effective date of 16 September 2021. Mineral Resources that are not Mineral Reserves have no demonstrated economic viability. BGS and Alien are not aware of any factors (environmental, permitting, legal, title, taxation, socio-economic, marketing, political, or other relevant factors) that have materially affected the Mineral Resource Estimate.
The quantity and grade of reported Inferred Mineral Resources in this estimation are uncertain in nature and there has been insufficient exploration to define these Inferred Mineral Resources as an Indicated or Measured Mineral Resource; and it is uncertain if further exploration will result in upgrading them to an Indicated or Measured Mineral Resource category.
BGS notes that the Mineral Resource has a reasonable prospect for eventual economic extraction but are not considered Mineral Reserves. Mineral Reserves are estimates of the tonnage and grade or quality of material contained in a Mineral Resource that can be economically mined and processed. To be considered a Mineral Reserve, modifying factors must be applied to the Mineral Resource estimate as part of the preparation of a prefeasibility study (PFS) or a feasibility study (FS). The estimated amount of saleable material contained in the final product must demonstrate a positive Net Present Value (NPV) using an appropriate discount rate and must demonstrate that eventual extraction could be reasonably justified. The major categories of modifying factors include:
-- Mining, -- Processing, -- Metallurgical, -- Environmental, -- Location and infrastructure, -- Market factors, -- Legal (including land tenure and third-party ownership), -- Economic, -- Social, and -- Governmental
Mineral Resource Statement
Table 3 shows the resulting Mineral Resource Statement for the Hancock Project. All material is reported within the optimised pit shells and within the tenement boundary.
Table 3: Mineral Resource Statement at a 0% Fe cut-off grade, Hancock Iron Ore Project, Alien Metals, September 2021
Target Mass (Million tonnes) Average Value ------------------ ---------- Classification Al(2) Category Fe SiO(2) O(3) P LOI MnO ------------------ ---------- % % % % % % ---------------- ------------------ ---------- ----- ------- ------ ----- ---- ----- Inferred Sirius Extension 7.8 60.1 4.1 3.72 0.17 5.2 0.05 ------------------ ---------- ----- ------- ------ ----- ---- ----- Ridge E 1.5 61.2 4.8 3.38 0.13 3.5 0.02 ----------------------------------- ---------- ----- ------- ------ ----- ---- ----- Ridge C 1.1 61.9 4.4 2.93 0.12 3.5 0.03 Total 10.4 60.4 4.2 3.6 0.16 4.8 0.04 ---------- ----- ------- ------ ----- ----
Upside Potential and next phase
With the improved understanding of the enrichment horizon and the large extent of untested highly prospective ridges still to be tested and hopefully added into an updated and enlarged future resource, Alien plans to target the specific horizons in the next drilling programme, with the hope to increase both volume and confidence in these initial mineral resources. Figure 17 shows the location of the current drilling and the future ridge lines to be drill tested.
Figure 17: Target areas for further ground reconnaissance, Hancock Tenement, Hamersley Iron Ore Project, August 2021
For further information please visit the Company's website at www.alienmetals.uk, or contact:
Alien Metals Limited
Bill Brodie Good, CEO & Technical Director
(via St-James' Corporate Services, Company Secretary)
Tel: +44 20 7796 8644
Beaumont Cornish Limited (Nomad)
James Biddle / Roland Cornish
www.beaumontcornish.com
Tel: +44 (0) 207 628 3396
Turner Pope Investments (TPI) Limited (Broker)
Andrew Thacker / James Pope
Tel: +44 (0) 20 3657 0050
Yellow Jersey PR (Financial PR)
Sarah Hollins / Joe Burgess / Matthew McHale
alienmetals@yellowjerseypr.com
Tel: +44 (0) 20 3004 9512
Notes to Editors
Alien Metals Ltd is a mining exploration and development company listed on AIM of the London Stock Exchange (LSE: UFO). The Company's focus is on precious and base metal commodities, with its operations located in proven mining jurisdictions and it has embarked upon an acquisition-led strategy headed by a high-quality geological team to build a strong portfolio of diversified assets.
In 2019, the company acquired 51% of the Brockman and Hancock Ranges high-grade (Direct Shipping Ore) iron ore projects and increased its holding to 90% in May 2021 while in 2020 acquired 100% of the Elizabeth Hill Silver Project, which consists of the Elizabeth Hill Historic Silver Mine Mining Lease and the surrounding Munni Munni North Exploration Tenement. The Australian projects are located in the world-renowned Pilbara region of Western Australia.
The Company also holds two silver projects, San Celso and Los Santos, located in Zacatecas State, Mexico's largest silver producing state, which produced over 190m oz of silver in 2018 alone, accounting for 45% of the total silver production of Mexico for that year. The Company holds a Copper Gold project in the same region, Donovan 2.
The company was also awarded an Exploration Licence in Greenland in late 2020, which surrounds the world class Citronen Zinc-Lead deposit.
In addition to progressing and developing its portfolio of assets and following its strategic review of its portfolio of silver and precious metals projects, Alien Metals has identified priority exploration targets within all of its projects which it is working to advance systematically.
Competent Person
The information in this report that relates to Mineral Resources is based on information compiled by Mr Howard Baker, a Competent Person who is a Fellow of the Australasian Institute of Mining and Metallurgy and is employee by Baker Geological Services Ltd. Mr Baker has sufficient experience relevant to the style of mineralisation and type of deposit under consideration and to the activity which they are undertaking to qualify as a Competent Person as defined in the 2012 edition of the Australasian Code for the Reporting of Exploration Results, Mineral Resources, and Ore Reserves (JORC Code). Mr Baker consents to the disclosure of information in this report in the form
and context in which it appears.
Mr Baker of BGS is a resource geologist with 25 years' experience covering multiple commodities from early-stage exploration through to definitive feasibility studies. Mr Baker is the Managing Director of BGS and previously worked for the International Mining Consultancy, SRK Consulting (UK) Ltd ("SRK") where he was employed for eight years as a Principal Consultant and Practice Leader. In his time at SRK, he focussed on the management of Mineral Resource Estimates with a strong focus on technical quality management and compliance to international reporting codes. In addition, he played a key role in advising on suitable exploration protocols and drill programmes and effectively assisted clients in the development of numerous large-scale iron ore projects. Prior to his time at SRK, Mr Baker lived and worked in Australia, working for Rio Tinto, BHP Billiton, Iluka Resources and Anaconda Nickel.
Mr Baker has extensive global experience in the geology and Mineral Resource Estimation of iron ore projects and worked as a mine geologist and specialist resource geologist in the iron ore Pilbara district of Western Australia.
Glossary:
Mineral Resource - A concentration or occurrence of solid or liquid material of economic interest in or on the Earth's crust in such form, grade (or quality), and quantity that there are reasonable prospects for eventual economic extraction. The location, quantity, grade (or quality), continuity and other geological characteristics of a Mineral Resource are known, estimated or interpreted from specific geological evidence and knowledge, including sampling. Mineral Resources are sub-divided, in order of increasing geological confidence, into Inferred, Indicated and Measured categories.
Inferred Mineral Resource - that part of a Mineral Resource for which quantity and grade (or quality) are estimated on the basis of limited geological evidence and sampling. Geological evidence is sufficient to imply but not verify geological grade (or quality) continuity. It is based on exploration, sampling and testing information gathered through appropriate techniques from locations such as outcrops, trenches, pits, workings and drill holes. An inferred Mineral Resource has a lower level of confidence that that applying to an Indicated Mineral Resources and must not be converted to an Ore Reserve. It is reasonably expected that the majority of Inferred Mineral Resources could be upgraded to Indicated Mineral Resources with continued exploration.
Reverse Circulation Drilling - Often referred to as RC drilling, is a method of drilling which uses dual wall drill rods that consist of an outer drill rod with an inner tube. These hollow inner tubes allow the drill cuttings to be transported back to the surface in a continuous, steady flow. Drill results using this method with adequate QA/QC can be used in Mineral Resource Calculations
DSO - Direct Shipping Ore
XRF - X-ray fluorescence, used for elemental analysis and chemical analysis, particularly in the investigation of metals in the resource industry.
QA /QC - Quality Assurance/Quality Control - This is the combination of quality assurance, the process or set of processes used to measure and assure the quality of a product, and quality control, the process of ensuring products and services meet consumer expectations. In this case an independent verification of the laboratory analysis result.
Deleterious Elements - Elements that can be detrimental to the overall product, such as Phosphorus.
Fe - Iron
Al - Aluminium
Ca - Calcium
K - Potassium
Mg - Magnesium
Mn - Manganese
Na - Sodium
P - Phosphorus
S - Sulphur
Si - Silica
SWATH - Standard term in Mineral Resource Estimation studies, similar to a slice or cross section
Mt - Million Tonnes
BIF - Banded Iron Formation
Cap - the upper portion of the deposit, at surface and enriched in clay material and organics
Appendix 1 - JORC Table 1
Section 1 Sampling Techniques and Data
( C r it er ia listed in the preceding section also apply to this section.) Criteria JORC Code explanation Sampling techniques * Nature and quality of sampling (e.g. cut channels, * Reverse circulation drilling was used to obtain 1 m random chips, or specific specialized industry samples via a 4 way splitter from which 3 kg was standard measurement tools appropriate to the pulverized to produce a 30 g charge for fire assay. minerals under investigation, such as down hole gamma sondes, or handheld XRF instruments, etc.). These examples should not be taken as limiting the broad * A tri-cone splitter at the cyclone was used to meaning of sampling. provide two samples splits and a bulk sample per metre. * Include reference to measures taken to ensure sample representivity and the appropriate calibration of any * When water was produced by the hole, samples were measurement tools or systems used. continued to be taken with care to get as representative a sample per meter as possible. Water was expelled after rod change to reduce the amount of * Aspects of the determination of mineralisation that water in the ensuing samples. All efforts were made are Material to the Public Report. to ensure representative samples in wet conditions were taken. Notes were made on logging sheets for large volumes of water to ensure interpretation was * In cases where 'industry standard' work has been done consistent in the holes. 1 m samples were taken in this would be relatively simple (e.g.). In other the majority of every hole unless obvious non iron cases, more explanation may be required, such as ore bearing lithology was identified, such as where there is coarse gold that has inherent sampling associated dolerite mainly in the ridge area in the problems. Unusual commodities or mineralisation types west of the project. (e.g. submarine nodules) may warrant disclosure of detailed information. Drilling techniques * Drill type (e.g. core, reverse circulation, open-hole * 1 x Schramm track mounted T450 Reverse Circulation hammer, rotary air blast, auger, Bangka, sonic, etc.) (RC) drill machine, rated to 350 m RC with 6.0 m and details (e.g. core diameter, triple or standard pullback, 4" rod string, on--board 350psi / 900 cfm
tube, depth of diamond tails, face-sampling bit or compressor was used for all drilling done by Alien. other type, whether core is oriented and if so, by what method, etc.). * A Hurricane 636 Booster for extra air was also available and used when required for deeper holes to ensure consistent sample quality. * Alien do not have the specifics of the RC drill rig used by Volta in 2013 available but can confirm it was RC method. ============================================================ Drill sample recovery * Method of recording and assessing core and chip * Where sample recovery was deemed to be less than the sample recoveries and results assessed. average a note was made on the logging sheets. * Measures taken to maximise sample recovery and ensure * Where very little sample was recovered in a meter representative nature of the samples. interval this was noted on log sheet. * Whether a relationship exists between sample recovery * Where water was deemed a factor to sample recovery and grade and whether sample bias may have occurred this was noted on the log sheet. due to preferential loss/gain of fine/coarse material. * Every meter was sampled directly from a tri-cone splitter into a pre-labelled calico sample bag mounted on the rig cyclone. Any additional splitting was carried out at the analysis laboratory. * 96% of samples were taken dry, with any wet samples being recorded on the rig log sheet. * The cyclone was air flushed to clean after each 6-metre run to minimise contamination. Logging * Whether core and chip samples have been geologically * Main lithology for each meter logged along with notes and geotechnically logged to a level of detail to on visible hematite or magnetite or other. support appropriate Mineral Resource estimation, mining studies and metallurgical studies. * Chip trays of RC samples were taken and photographed. * Whether logging is qualitative or quantitative in nature. Core (or costean, channel, etc.) photography. * Logging mainly qualitative in nature. * The total length and percentage of the relevant * Early logging in some cases logged clay rather than intersections logged. BIF where BIF appears dominant lithology. * Review to be done on spoils and chip trays once return to site to verify logging. ============================================================ Sub-sampling techniques * If core, whether cut or sawn and whether quarter, * Tri-cone splitter attached to cyclone produced 2 and sample half or all core taken. samples for laboratory submission plus larger preparation remaining fraction per meter drilled. * If non-core, whether riffled, tube sampled, rotary split, etc. and whether sampled wet or dry. * If sample interval not deemed necessary for laboratory submission, the sample was left on site for later collection. * For all sample types, the nature, quality and appropriateness of the sample preparation technique. * 1 in 20 average field duplicates taken. * Quality control procedures adopted for all sub-sampling stages to maximise representivity of * Certified Reference Samples also inserted on a 1 in samples. 20 sample average. * Measures taken to ensure that the sampling is * Laboratory sample preparation was to dry and representative of the in-situ material collected, pulverize. including for instance results for field duplicate/second-half sampling. * Whether sample sizes are appropriate to the grain size of the material being sampled. Quality of assay data * The nature, quality and appropriateness of the * Intertek Genalysis, Perth, used for sample and assaying and laboratory procedures used and whether preparation and analysis, Basic Iron Ore Package/XRF laboratory the technique is considered partial or total. single point LOI analysis method. tests * For geophysical tools, spectrometers, handheld XRF * Laboratory also used Certified Reference Materials instruments, etc., the parameters used in determining and/or in-house controls, blanks and replicates the analysis including instrument make and model, analysed with each batch of samples with these reading times, calibrations factors applied and their quality control results reported along with the derivation, etc. sample values in the final report. * Nature of quality control procedures adopted (e.g. * Industry Standard CRM's from Geostats PTY Ltd, Perth standards, blanks, duplicates, external laboratory were inserted 1 in 20 samples on average. checks) and whether acceptable levels of accuracy (i.e. lack of bias) and precision have been established. * Duplicate samples from the drilling inserted on average 1 in 20 samples * Acceptable levels of accuracy obtained from all QA/QC results. ============================================================ Verification of sampling * The verification of significant intersections by * 4 historic drill holes drilled by Volta Mining in and assaying either independent or alternative company personnel. 2013 included in this work were tested by a twin RC drill hole traversing across the line of Volta drilling. * The use of twinned holes. * All data managed into central database. * Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols. * All data verified for errors. * Discuss any adjustment to assay data. * No adjustment to laboratory assay data done. Location of data points * Accuracy and quality of surveys used to locate drill * Differential GPS used to locate and survey drillhole holes (collar and down-hole surveys), trenches, mine collars. workings and other locations used in Mineral Resource estimation.
* Topographic survey acquired for area at accuracy of 50 cm. * Specification of the grid system used. * Quality and adequacy of topographic control. ============================================================ Data spacing and * Data spacing for reporting of Exploration Results. * Drill Spacing is variable. distribution * Whether the data spacing, and distribution is o Sirius Extension = approximately 50 to 100 m section sufficient to establish the degree of geological and spacing with on fence spacing from grade continuity appropriate for the Mineral Resource 30 to 50 m. and Ore Reserve estimation procedure(s) and o Ridge C = approximately 70 to 150 m spacing, mostly classifications applied. single drillholes per fence. o Ridge E = approximately 100 to 150 m spacing, mostly single drillholes per fence. * Whether sample compositing has been applied. * Single meter sample intervals in all drilling. * Single meter analysis of all samples. * No sample composites generated for sampling and assaying purposes. Orientation of data in * Whether the orientation of sampling achieves unbiased * No bias indicated through the dill orientation. relation to sampling of possible structures and the extent to geological which this is known, considering the deposit type. structure * Where possible drill holes drilled as perpendicular to assumed geological units to ensure minimum * If the relationship between the drilling orientation sampling bias. and the orientation of key mineralised structures is considered to have introduced a sampling bias, this should be assessed and reported if material. ============================================================ Sample security * The measures taken to ensure sample security. * Samples secured in sealed bags from sample location to laboratory Audits or reviews * The results of any audits or reviews of sampling * Drilling reported here based on 2 drilling programs, techniques and data. the initial program managed by 3(rd) party consultants. * Company recruited Exploration Manager managed the second drilling phase and tied in any outstanding survey and geological issues from the phase one program managed by 3(rd) party contractors. * Same drilling company and drillers used for both drilling programs ============================================================
Section 2 Reporting of Exploration Results
( C r it er ia listed in the preceding section also apply to this section.) Criteria JORC Code explanation Mineral tenement * Type, reference name/number, location and ownership * The Hancock Project lies within the E47/3953 tenement and land including agreements or material issues with third and is approximately 10km north of Newman in the tenure status parties such as joint ventures, partnerships, Pilbara region of Western Australia. overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings. * The security of the tenure held at the time of reporting along with any known impediments to obtaining a license to operate in the area. Exploration done by * Acknowledgment and appraisal of exploration by other * The Mineral Resource Estimate includes 4 drillholes other parties parties. completed by Volta Mining in 2013. This accounts for 32% of the drill data available at the Sirius Extension target with all historic holes being located on a single fence line. Geology * Deposit type, geological setting and style of * The tenement area consists of a series of low mineralisation. east/west running rocky ridge lines separated by shallow valleys. The area has been structurally deformed with the presence of numerous fold hinges, some isoclinal, but all trending east/west with a shallow ( * Most of the ridge lines consist of Banded Iron which is part of the Weeli Woolli Formation. The Weeli Wolli Formation is described as a thick succession of jaspilite, shale, and dolerite overlying the Brockman Iron Formation. The iron formations stand out as ridges on which there is some exposure, but the intervening shale and dolerite are rarely exposed. Drill hole Information * A summary of all information material to the * Alien undertook Reverse Circulation (RC) drilling at understanding of the exploration results including a the project between January and June 2021. The table tabulation of the following information for all below summarises the number of drillholes, and total Material drill holes: meters of drilling completed at each target along with the number of Fe assays collected from the 1m samples. An equal number of assays was generated for o easting and northing all other elements as part of the XRF suite. of the drill hole collar o elevation or RL (Reduced Level - elevation above * All drillholes were drilled at an orientation to sea level in metres) target as perpendicular an intercept to the BIF as of the drill hole collar possible. o dip and azimuth of the hole Target No. Total No. o down hole length of Drillholes Meters Fe
and interception depth Drilled Assays o hole length. (m) * If the exclusion of this information is justified on ------------ --------------- --------- -------- the basis that the information is not Material and Sirius this exclusion does not detract from the Extension 20 1,956 1,506 understanding of the report, the Competent Person Ridge should clearly explain why this is the case. C 20 796 550 Ridge E 27 1,665 925 ------------ --------------- --------- -------- Total 67 4,417 2,981 ------------ --------------- --------- -------- Data aggregation * In reporting Exploration Results, weighting averaging * No data aggregation methods have been used in the methods techniques, maximum and/or minimum grade truncations reporting of the exploration results. (e.g. cutting of high grades) and cut-off grades are usually Material and should be stated. * Where aggregate intercepts incorporate short lengths of high-grade results and longer lengths of low-grade results, the procedure used for such aggregation should be stated and some typical examples of such aggregations should be shown in detail. * The assumptions used for any reporting of metal equivalent values should be clearly stated. Relationship between * These relationships are particularly important in the * All drillholes were drilled at an orientation to mineralisation reporting of Exploration Results. target as perpendicular an intercept to the BIF as widths and possible. intercept lengths * If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported. * If it is not known and only the down hole lengths are reported, there should be a clear statement to this effect (e.g. 'down hole length, true width not known'). Diagrams * Appropriate maps and sections (with scales) and * Appropriate images have been put in the main body of tabulations of intercepts should be included for any the report. significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional views. Balanced reporting * Where comprehensive reporting of all Exploration Results is not practicable, representative reporting of both low and high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results. Other substantive * Other exploration data, if meaningful and material, * Prior to the drill programs, Alien conducted ground exploration should be reported including (but not limited to): reconnaissance and grab sampling within the tenement. data geological observations; geophysical survey results; This has been reported in previous press releases and geochemical survey results; bulk samples - size and does not impact the work undertaken in generating the method of treatment; metallurgical test results; bulk Mineral Resource Estimate. density, groundwater, geotechnical and rock characteristics; potential deleterious or contaminating substances. Further work * The nature and scale of planned further work (e.g. * With the improved understanding of the enrichment tests for lateral extensions or depth extensions or horizon and the large extent of untested highly large-scale step-out drilling). prospective ridges still to be tested and hopefully added into an updated and enlarged future resource, Alien plans to target the specific horizons in the * Diagrams clearly highlighting the areas of possible next drilling programme, with the hope to increase extensions, including the main geological both volume and confidence in these initial mineral interpretations and future drilling areas, provided resources. this information is not commercially sensitive. =============== =============================================================== =======================================================================
Section 3 Estimation and Reporting of Mineral Resources
(Criteria listed in section 1, and where relevant in section 2, also apply to this section.)
Criteria JORC Code explanation Database integrity * Measures taken to ensure that data has not been * All data has been validated to heck for gross errors corrupted by, for example, transcription or keying with original assay certificates being supplied by errors, between its initial collection and its use Alien. for Mineral Resource estimation purposes. * Minor transcript errors identified were reported to * Data validation procedures used. Alien with corrective measures taking place. * Regular database updates were provided throughout the drilling and assaying programme so that continual monitoring could be carried out. Site visits * Comment on any site visits undertaken by the * Due to the Covid-19 Pandemic, Mr Baker of BGS has not Competent Person and the outcome of those visits. been able to visit the project and observe the exploration activities. As such, BGS has relied upon the experience of the team employed by Alien and the * If no site visits have been undertaken indicate why QA/QC practices adopted. this is the case. Geological interpretation * Confidence in (or conversely, the uncertainty of) the * A simple interpretation of the mineralised BIF unit geological interpretation of the mineral deposit. has been created for each target area with a single BIF unit being created at Sirius Extension and Ridge C with two BIF units created at Ridge E. The * Nature of the data used and of any assumptions made. modelling was based on the lithology and geochemical data. * The effect, if any, of alternative interpretations on Mineral Resource estimation. * At Ridge C and Ridge E, the dip of the BIF unit was inferred from the ridge topography and the onsite observations with a shallow dip of 15 to 20 deg used.
* The use of geology in guiding and controlling Mineral Resource estimation. * At Sirius Extension, a steeply dipping BIF unit was created based on the HW / FW contacts with the * The factors affecting continuity both of grade and assumption that the unit forms part of syncline geology. extended from the neighbouring licence and where a resource has previously been reported. * An overlying weathered cap has been created at Sirius Extension and Ridge C. This is based on logging and geochemical data where an increase in LOI, AL2O3 is observed along with a decrease in Fe. * At Sirius Extension, the geochemical data was used to define high / low Silica domains within the BIF unit. This was based on the scatterplots of Fe vs SiO2 and approximates to a SiO2 cut-off of +/-4%. Dimensions * The extent and variability of the Mineral Resource * Sirius Extension = 450m strike by 60m width by 150m expressed as length (along strike or otherwise), plan down dip width, and depth below surface to the upper and lower limits of the Mineral Resource. * Ridge C = 600m strike by 12m width by 150m down dip * Ridge E = 900m strike by 10m width by 60m down dip Estimation and modelling * The nature and appropriateness of the estimation * At Sirius Extension, geostatistical studies were techniques technique(s) applied and key assumptions, including undertaken to determine appropriate estimation treatment of extreme grade values, domaining, parameters. interpolation parameters and maximum distance of extrapolation from data points. If a computer assisted estimation method was chosen include a * A primary search ellipse of 100m by 50m by 20m was description of computer software and parameters used. used with a minimum of 4 samples and a maximum of 12 samples. Samples were limited to 3 per drillhole. * The search ellipse was doubled for a second pass and then increased to 1000m to estimate any unestimated blocks. * Estimation was completed within the cap domain and the high / low SiO2 domains with each domain treated as a separate estimate with drillhole data coded accordingly. * Modelling and grade estimation was undertaken in Leapfrog Edge. * A composite length of 2m was used. * The availability of check estimates, previous * Fe, SiO2, Al2O3, P, MnO and LOI were estimated into estimates and/or mine production records and whether the model using Ordinary Kriging. the Mineral Resource estimate takes appropriate account of such data. * The average distance of samples to estimate the block grade was between 50 and 70m. * The assumptions made regarding recovery of by-products. * At Ridge C and Ridge E, geostatistical studies were not possible due to the limited data available. * Estimation of deleterious elements or other non-grade variables of economic significance (e.g. Sulphur for acid mine drainage characterization). * A primary search ellipse of 300m by 150m by 40m was used with a minimum of 4 samples and a maximum of 12 samples. Samples were limited to 2 per drillhole. * In the case of block model interpolation, the block size in relation to the average sample spacing and the search employed. * A single estimation pass was required to estimate all blocks. * Any assumptions behind modelling of selective mining units. * Estimation was completed within the cap domain (Ridge C only) and the BIF domains with each domain treated as a separate estimate with drillhole data coded * Any assumptions about correlation between variables. accordingly. * Description of how the geological interpretation was * Modelling and grade estimation was undertaken in used to control the resource estimates. Leapfrog Edge. * Discussion of basis for using or not using grade * A composite length of 2m was used. cutting or capping. * Fe, SiO2, Al2O3, P, MnO and LOI were estimated into * The process of validation, the checking process used, the model using Inverse Distance Weighting. the comparison of model data to drill hole data, and use of reconciliation data if available. * The average distance of samples to estimate the block grade was between 120 and 135m. * This work represents the Maiden Mineral Resource Estimate for the area. * Besides Fe, SiO2, Al2O3, P, MnO and LOI were also estimated into the model. * A block size of 20m X x 10m Y x 10m Z was used with sub-cells of 2.5m in the X direction and 1.25m in the Y and Z direction. This is less than the sample spacing in the X direction.
* No assumptions have currently been made regarding the SMU. * Grade correlation has been used in the modelling and domaining strategies with statistical checks primarily on the F and SiO2 being used to guide the interpretation. No regression-based assumptions have been applied to the estimated model. * The geological interpretation was used to guide the orientation of the search ellipse used in the estimate. * No top capping has been applied due to the homogenous nature of the mineralisation. * Visual and statistical validation checks have been completed comparing the input sample grades and the output block model grades. No bias has been observed. Checks were also completed on the number of blocks estimated in each estimation run and the average distance of the samples used to estimate the block grade. * No reconciliation data is available. Moisture * Whether the tonnages are estimated on a dry basis or * Tonnage is assumed to be on a dry basis. No density with natural moisture, and the method of data has been collected to data and an average of 3.0 determination of the moisture content. t/m3 was applied to all mineralised BIF material with a density of 2.5 t/m3 applied to the weathered Cap. A density of 2.8 t/m3 was applied to all external host material. Cut-off parameters * The basis of the adopted cut-off grade(s) or quality * No cut-off has been used in the reporting of the parameters applied. Mineral Resource with an open pit optimisation being applied to determine the material with reasonable prospects for eventual economic extraction potential. Mining factors * Assumptions made regarding possible mining methods, * An open pit operation has been assumed with an or assumptions minimum mining dimensions and internal (or, if optimisation study being completed to enable the applicable, external) mining dilution. It is always reporting of the Mineral Resource Statement. The necessary as part of the process of determining optimisation was undertaken by Mining Plus. reasonable prospects for eventual economic extraction to consider potential mining methods, but the assumptions made regarding mining methods and * The following assumptions were used in the parameters when estimating Mineral Resources may not optimisation: always be rigorous. Where this is the case, this should be reported with an explanation of the basis of the mining assumptions made. o Mining Cost: USD3.2/t o Open Pit Recovery: 100% o Open pit dilution: 0% o Crushing and screening costs: USD3.5/t o Loading and Haulage to Port Hedland: USD31.32/t o Port Handling Costs: USD6.86/t o Pit wall slope angle: 45deg o Iron Ore Price - 62%: USD210/t Metallurgical factors * The basis for assumptions or predictions regarding * No metallurgical testwork has been completed to data or assumptions metallurgical amenability. It is always necessary as with material assumed to be a DSO product. part of the process of determining reasonable prospects for eventual economic extraction to consider potential metallurgical methods, but the assumptions regarding metallurgical treatment processes and parameters made when reporting Mineral Resources may not always be rigorous. Where this is the case, this should be reported with an explanation of the basis of the metallurgical assumptions made. Environmental factors * Assumptions made regarding possible waste and process * BGS and Alien are not aware of any factors or assumptions residue disposal options. It is always necessary as (environmental, permitting, legal, title, taxation, part of the process of determining reasonable socio-economic, marketing, political, or other prospects for eventual economic extraction to relevant factors) that have materially affected the consider the potential environmental impacts of the Mineral Resource Estimate. mining and processing operation. While at this stage the determination of potential environmental impacts, particularly for a greenfields project, may not always be well advanced, the status of early consideration of these potential environmental impacts should be reported. Where these aspects have not been considered this should be reported with an explanation of the environmental assumptions made. Bulk density * Whether assumed or determined. If assumed, the basis * No density data has been collected to data and an for the assumptions. If determined, the method used, average of 3.0 t/m3 was applied to all mineralised whether wet or dry, the frequency of the measurements BIF material with a density of 2.5 t/m3 applied to , the weathered Cap. A density of 2.8 t/m3 was applied the nature, size and representativeness of the to all external host material. samples. * The bulk density for bulk material must have been measured by methods that adequately account for void spaces (vugs, porosity, etc.), moisture and differences between rock and alteration zones within the deposit. * Discuss assumptions for bulk density estimates used in the evaluation process of the different materials. Classification
* The basis for the classification of the Mineral * All deposits have been classified as Inferred Mineral Resources into varying confidence categories. Resources. Primarily, this is due to the lack of density data, the limited data at Ridge C and Ridge E, and the lack of verification diamond drilling to * Whether appropriate account has been taken of all confirm the grade identified through the RC drilling relevant factors (i.e. relative confidence in and the drilling challenges observed. That said, tonnage/grade estimations, reliability of input data, continuous packages of mineralised BIF have been confidence in continuity of geology and metal values, identified and BGS is confident that future drilling quality, quantity and distribution of the data). will increase the classification confidence category assigned. * Whether the result appropriately reflects the Competent Person's view of the deposit. * At the Sirius Extension Target, the base of the Inferred Mineral Resources was restricted to the deepest drillhole intersections within the mineralised body. All mineralised BIF material modelled at Ridge C and Ridge E was classified as an Inferred Mineral Resource with no depth restriction, due to the limited down dip extent of the models. Audits or reviews * The results of any audits or reviews of Mineral * Prior to undertaken the optimisation study, Mining Resource estimates. Plus audited the Mineral Resource Estimate completed by BGS. Discussion of relative * Where appropriate a statement of the relative * Given the early-stage nature of the project, the accuracy/ accuracy and confidence level in the Mineral Resource Inferred category is deemed appropriate. Further work confidence estimate using an approach or procedure deemed is required to determine the accuracy of the drilling appropriate by the Competent Person. For example, the method in terms of recovery and grade bias in application of statistical or geostatistical addition to the requirement for the collection of procedures to quantify the relative accuracy of the density data. resource within stated confidence limits, or, if such an approach is not deemed appropriate, a qualitative discussion of the factors that could affect the * Overall, the dimensions and volumes of the BIF relative accuracy and confidence of the estimate. packages are robust although changes to the overall geometry can be expected at Ridge C and Ridge E once further drill data is collected. * The statement should specify whether it relates to global or local estimates, and, if local, state the relevant tonnages, which should be relevant to * Given the quantity of data at Ridge C and Ridge E, technical and economic evaluation. Documentation the estimate can only be considered as global should include assumptions made and the procedures estimates. More data exists at the Sirius Extension used. target with the grade distribution being better defined with the application of additional SiO2 domaining within the BIF unit. However, it is advised * These statements of relative accuracy and confidence that the grade distribution be tested with diamond of the estimate should be compared with production drilling to ensure that the distribution observed is data, where available. not attributable to RC drilling recovery. * The density could also impact the overall tonnage. Should variations in density being determined, due to such things as the compactness and porosity of the stratum, then the final tonnage could be impacted. =============== ============================================================ ========================================================================
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