Cornish Metals Inc. (
AIM/TSX-V:
CUSN) (“Cornish Metals” or the “Company”), a mineral
exploration and development company focused on advancing its 100%
owned and permitted South Crofty tin project in Cornwall, United
Kingdom, is pleased to report results from the last eight drill
holes of the recently completed 14-hole / 8,993m drilling programme
at its Wide Formation target, located approximately 1km south of
the South Crofty mine (Figure 1).
The programme successfully tested the geometry
and continuity of tin mineralisation within a 2,500m by 800m extent
of the Wide Formation, located between and sub parallel to the past
producing Great Flat Lode to the south, and the Dolcoath and South
Crofty mines to the north (Figure 8). In addition to the Wide
Formation, drilling also intersected tin mineralisation associated
with the Great Flat Lode and the Great Flat Lode Splay identified
earlier in the programme (see news release dated February 4, 2024),
as well as the interpreted eastern extension of the Great Condurrow
Mine’s Main Lode, and several strongly mineralised steeply dipping
zones locally referred to as ‘Droppers’.
The numerous mineralised lodes and structures
encountered during the programme have increased overall confidence
in the Company’s exploration model and confirm the potential of
systematic exploration drilling to make new discoveries and expand
Mineral Resources within the South Crofty mine permission area and
elsewhere within Cornish Metals’ extensive mineral rights in the
region.
Highlights
- Wide Formation
structure has been confirmed over a strike length of over 2,500m
and a downdip extent of at least 800m, with true thicknesses
ranging from approximately 2m to 10m. The structure remains open at
depth and along strike.
- Notable tin (“Sn”) intercepts
within the Wide Formation (Figure 5) include:
- 10.55m grading
0.19% Sn including a zone of 1.49m grading 0.72%
Sn in CB23_012
- Notable tin intercepts from the
steeply-dipping, high-grade ‘Dropper’ zones identified primarily
between the Great Flat Lode and the Wide Formation, including:
- 1.56m grading
0.76% Sn in CB23_010
- 2.07m grading
0.85% Sn in CB23_012
- 1.97m grading
0.66% Sn in CB23_012
- Notable tin and copper (“Cu”)
intercepts from a new structure interpreted as the eastern
extension to Great Condurrow Mine’s Main Lode (Figure 7),
including:
- 2.11m grading
0.58% Sn and 5.48% Cu in
CB23_011
- Table 1 below
presents all significant intercepts.
Ken Armstrong, Interim CEO and Director
of Cornish Metals, stated: “This drilling programme has
validated the Wide Formation as a new, large-scale, tin-bearing
exploration target that is potentially accessible from the
underground workings at South Crofty. Mineralisation has been
traced over a 2,500m extent, up to 800m down dip, and remains open
along strike and to depth. Furthermore, in addition to the earlier
discovery of the Great Flat Lode Splay and new ‘Dropper’ zones of
high-grade tin mineralisation, the discovery of polymetallic tin
and copper mineralisation within the interpreted extension of the
Great Condurrow Mine’s Main Lode further demonstrates the
exploration potential of the South Crofty area.”
Wide Formation
The Wide Formation represents a high-grade
“payshoot” controlled tin target in the Carn Brea South exploration
area, located along the southern boundary of the South Crofty
underground mine permission area. The 14-hole, 8,993m drilling
programme was designed to test the geometry and the continuity of
tin mineralisation within the Wide Formation over an area measuring
2,500m along strike (northeast to southwest) and 800m downdip to
the southeast. The Wide Formation is characterised by strong
tourmaline mineralisation, with local concentrations of significant
cassiterite (tin) mineralisation, typical of all historically mined
tin-bearing structures in the South Crofty area.
Great Flat Lode Splay
Drilling continued to intersect a previously
unrecognised splay lode structure found immediately beneath the
Great Flat Lode. Termed the Great Flat Lode Splay, this mineralised
structure varies up to 9m in thickness, and represents an important
new exploration target less than 280m below surface (Table 1 and
accompanying figures).
New Steeply Dipping Tin
Zones
As the programme progressed, drilling continued
to intersect multiple steeply dipping high-grade tin zones, mainly
located between the Great Flat Lode and the Wide Formation (Figures
2, 3, 4 and 5). With the increasing intersections of these new
structures, it is possible to confirm continuity of individual
structures between drill holes. From the intercept pattern, an E-W
trending ‘corridor’ has been identified where these structures are
interpreted to occur, representing a priority exploration target to
be confirmed with future drilling. Targets of highest priority are
areas where these structures are interpreted to intersect both the
Great Flat Lode and the Wide Formation. These intersection points
represent areas of greater fracturing and therefore increased
potential for high grade tin mineralisation.
Great Condurrow Main Lode
Drill hole CB23_011, intersected significant
polymetallic (tin and copper) mineralisation within the interpreted
eastern extension, across the Great Crosscourse fault, of Great
Condurrow Mine’s Main Lode. Further drilling will be necessary to
fully quantify the prospectivity of this target and to confirm the
geometry of the zone. However, the location of this intercept
proximal to the Wide Formation and South Crofty mine, is considered
significant and confirms exploration potential of the Carn Brea
district.
Hole ID |
From (m) |
To (m) |
Length (m)1 |
Sn % |
Comments |
CB23_007 |
62.67 |
65.29 |
2.62 |
1.27 |
Great Flat lode |
Including |
62.67 |
63.57 |
0.90 |
1.46 |
|
|
|
|
|
|
|
CB23_007 |
394.45 |
395.04 |
0.59 |
1.02 |
Vein |
CB23_007 |
496.67 |
497.20 |
0.53 |
0.70 |
Vein |
CB23_007 |
574.85 |
578.89 |
4.04 |
0.01 |
Wide Formation |
|
|
|
|
|
|
CB23_008 |
172.93 |
174.93 |
2.00 |
0.32 |
Great Flat lode |
CB23_008 |
178.66 |
179.64 |
0.98 |
0.25 |
Great Flat Lode splay |
CB23_008 |
637.13 |
644.91 |
7.78 |
0.04 |
Wide Formation |
|
|
|
|
|
|
CB23_009 |
41.63 |
48.18 |
6.55 |
0.01 |
Great Flat lode |
CB23_009 |
135.08 |
136.33 |
1.25 |
0.64 |
Quartz haematite structure |
Including |
135.08 |
135.58 |
0.50 |
1.12 |
|
CB23_009 |
298.74 |
299.92 |
1.18 |
0.45 |
Quartz haematite structure |
Including |
298.74 |
299.37 |
0.63 |
0.84 |
|
CB23_009 |
552.41 |
562.43 |
10.02 |
0.03 |
Wide Formation |
|
|
|
|
|
|
CB23_010 |
124.20 |
126.40 |
2.20 |
0.13 |
Great Flat Lode |
CB23_010 |
247.44 |
249.00 |
1.56 |
0.76 |
Quartz haematite structure |
Including |
247.44 |
247.84 |
0.40 |
2.45 |
|
CB23_010 |
614.46 |
622.37 |
7.91 |
0.05 |
Wide Formation |
Including |
618.38 |
618.74 |
0.36 |
0.83 |
|
CB23_0112 |
354.16 |
356.27 |
2.11 |
0.58 |
5.48% Cu |
Eastern extension of Great |
Including |
355.16 |
355.66 |
0.50 |
1.47 |
9.91% Cu |
Condurrow Main Lode |
CB23_012 |
144.36 |
148.27 |
3.91 |
0.28 |
Great Flat Lode |
Including |
146.84 |
147.44 |
0.60 |
0.91 |
|
CB23_012 |
329.5 |
334.78 |
5.28 |
1.06 |
Altered tourmaline stockwork |
Including |
331.54 |
333.71 |
2.17 |
1.89 |
|
CB23_012 |
405.71 |
407.78 |
2.07 |
0.85 |
Quartz haematite structure |
Including |
405.71 |
406.65 |
0.94 |
1.04 |
|
CB23_012 |
609.91 |
610.74 |
0.83 |
0.52 |
Quartz haematite structure |
CB23_012 |
615.03 |
617.00 |
1.97 |
0.66 |
Quartz haematite structure |
Including |
616.18 |
617.00 |
0.82 |
1.32 |
|
CB23_012 |
684.43 |
694.98 |
10.55 |
0.19 |
Wide Formation |
Including |
693.49 |
694.98 |
1.49 |
0.72 |
|
Including |
693.49 |
693.99 |
0.50 |
2.12 |
|
CB23_013 |
132.11 |
136.91 |
4.80 |
0.07 |
Wide Formation |
CB23_014 |
140.79 |
145.30 |
4.51 |
0.07 |
Great Flat Lode |
CB23_014 |
635.60 |
637.72 |
2.12 |
0.06 |
Wide Formation |
|
|
|
|
|
|
|
Table 1: Selected drilling results from holes
7-14 at the Wide Formation target.Note 1: True thickness of
down-hole intersections reported are expected to be approximately
70-98% of the down-hole lengths.Note 2: Hole CB23_011 was abandoned
before reaching the target depth of the Wide Formation.
Hole ID |
Hole Length |
CB23_007 |
632.3m |
CB23_008 |
701.7m |
CB23_009 |
610.7m |
CB23_010 |
692.6m |
CB23_011 |
413.5m |
CB23_012 |
764.7m |
CB23_013 |
299.7m |
CB23_014 |
701.2m |
Table 2: Drill hole lengths for CB23_007 through
to CB23_014, from surface to end of hole.
GEOLOGY AND MINERALISATION
The geology in the Carn Brea South exploration
area is identical to that at South Crofty, comprising metasediments
(locally termed “killas”) which overlie an intrusive granite
body.
The mineralisation of the Wide Formation
consists predominantly of blue tourmaline with disseminated and
blebby cassiterite, hosted within a siliceous tourmaline altered
granite. The cassiterite mineralisation is found within
tourmaline-quartz veins and tourmaline breccia which overprint the
interpreted earlier blue tourmaline lode structure. No mining has
ever been carried out on the Wide Formation. Stronger cassiterite
mineralisation is identified to concentrate within local,
structurally controlled areas within the host structure. This style
of “payshoot” control on cassiterite mineralisation within a large
structure, is common within Cornwall, and has been identified
within both the Great Flat Lode and the lode structures at South
Crofty.
The Great Flat Lode Splay (Figure 2) occurs as a
blue tourmaline-rich lode with quartz (occasionally brecciated),
hosting disseminated cassiterite mineralisation. The mineralised
structure, which appears to separate away from the
metasediment-granite boundary followed by the Great Flat Lode, is
hosted within strongly altered granite. This structure forms an
unmined splay below the Great Flat Lode, is several meters thick
and has an approximate area of 700m by 450m. Based on drilling
completed to date, the east-northeast striking Splay has an
approximate dip of 29 degrees towards the southeast and plunges at
approximately 10 degrees towards the east.
The mineralised quartz haematite veins, or
droppers, discovered primarily between the Great Flat Lode and the
Wide Formation, individually occur as steeply dipping quartz veins,
which often display in core as a stockwork textured zone,
accompanied by a strong overprinting haematite alteration.
Cassiterite mineralisation is difficult to identify visually due to
the haematite alteration but is detectable with a portable X-ray
florescence instrument (“pXRF”) instrument. Based on the limited
structural data collected to date, these structures are interpreted
to occur in a broad regional east-north-east striking zone.
The intercepted eastern extension of Great
Condurrow mine’s Main Lode (Figure 7), is a steeply dipping
chlorite rich vein hosting massive textured chalcopyrite and
sphalerite, which overprint older stringer veinlets hosting
cassiterite. The structure is bounded by weak haematite alteration
of the host granite.
The Wide Formation, Great Flat Lode Splay,
Quartz Haematite veins of steeply dipping high-grade tin
mineralisation and the newly discovered eastern extension to Great
Condurrow’s Main Lode, warrant further future exploration.
TECHNICAL INFORMATION
Drilling at Carn Brea South was performed by
Priority Drilling Company Ltd. using two Atlas Copco CS14 Diamond
Drill Rigs. Hole construction typically consisted of HQ
(96.1-millimeter (“mm”) diameter) to recover 72.8mm diameter drill
core from within the shallower Great Flat mineralised zone, before
reducing to NQ (76-mm diameter) to recover a 48mm diameter drill
core when drilling at depth through the Wide Formation target.
Where poor ground conditions were expected, the hole collared in PQ
(96.1-mm diameter), before reducing through HQ and NQ hole
diameters with depth.
On completion, holes were multi-shot surveyed
using a Reflex EZ-Trac. Core recovery was greater than 95%. The
core was logged, split via core saw, and sampled by Cornish Metals
personnel. The samples, comprising half core, were sent for assay
at ALS Minerals, Loughrea, Ireland. Sample preparation involved
crushing to 70% less than 2mm, riffle split and pulverised to 85%
less than 75 microns. The analytical method used for tin, copper,
tungsten, zinc, and arsenic was X-ray florescence (“XRF”) following
a lithium borate fusion. A multi-element 4 Acid Digestion ICP-AES
analysis was also carried out to further characterise the
mineralisation and alteration assemblages. Overlimit assays on
silver were carried out using a 3-acid digest and a HCl leach ICP
AES analysis. Comprehensive Quality Assurance / Quality Control
programme using standards, duplicates and blanks was included
within the sampling programme.
This news release has been reviewed and approved
by Mr Owen Mihalop, MCSM, BSc (Hons), MSc, FGS, MIMMM, CEng, Chief
Operating Officer for Cornish Metals Inc. who is the designated
Qualified Person under NI 43-101 and the AIM Rules for Companies
and a Competent Person as defined under the JORC Code (2012). Mr.
Mihalop consents to the inclusion in this announcement of the
matters based on his information in the form and context in which
it appears.
Figure 1: Map of the drillholes completed on the
Wide Formation target.
Figure 2: Section A-A’ (looking west) showing
CB23_002, CB23_003, CB23_004 and CB23_008.
Figure 3: Section B-B’ (looking west) showing
CB23_005, CB23_006 and CB23_007.
Figure 4: Section C-C’ (looking west) showing CB23_001 and
CB23_009.
Figure 5: Section D-D’ (looking west) showing CB23_010, CB23_012
and CB23_014.
Figure 6: Section E-E’ (looking west) showing CB23_013.
Figure 7: Section F-F’ (looking west) showing
CB23_011.
Figure 8: Cross section through Williams Shaft
showing Great Flat Lode through to South Crofty Mine.
ABOUT CORNISH METALS
Cornish Metals is a dual-listed mineral
exploration and development company (AIM and TSX-V: CUSN) focused
on advancing the South Crofty high-grade, underground tin project
through to a construction decision, as well as exploring its
additional mineral rights, located in Cornwall, United Kingdom.
- South Crofty is
a historical, high-grade, underground tin mine that started
production in 1592 and continued operating until 1998 following
over 400 years of continuous production;
- The Project
possesses Planning Permission for underground mining (valid to
2071), to construct new processing facilities and all necessary
site infrastructure, and an Environmental Permit to dewater the
mine;
- South Crofty is
one of the highest grade tin Mineral Resources globally and
benefits from existing mine infrastructure including multiple
shafts that can be used for future operations;
- The 2024
Preliminary Economic Assessment for South Crofty validates the
Project’s potential (see news release dated April 30, 2024 and the
Technical Report entitled “South Crofty PEA”):
- US$201 million
after-tax NPV8% and 29.8% IRR
- 3-year after-tax
payback
- 4,700 tonnes
average annual tin production in years two through six
- Life of mine
all-in sustaining cost of US$13,660 /tonne of payable tin
- Total after-tax
cash flow of US$626 million from start of production
- Tin is a
Critical Mineral as defined by the UK, American, and Canadian
governments;
- Tin connects
almost all electronic and electrical infrastructure, making it
critical to the energy transition – responsible sourcing of
critical minerals and security of supply are key factors in the
energy transition and technology growth;
- Approximately
two-thirds of the tin mined today comes from China, Myanmar and
Indonesia;
- There is no
primary tin production in Europe or North America;
- South Crofty
benefits from strong local community, regional and national
government support.
- Cornish Metals
has a growing team of skilled people, local to Cornwall, and the
Project could generate up to 320 direct jobs.
The 2024 Preliminary Economic Assessment for
South Crofty is preliminary in nature and includes inferred mineral
resources that are considered too speculative geologically to have
the economic considerations applied to them that would enable them
to be categorised as mineral reserves. There is no certainty that
the 2024 Preliminary Economic Assessment will be realised. Mineral
resources that are not mineral reserves do not have economic
viability.
ON BEHALF OF THE BOARD OF
DIRECTORS
“Kenneth A. Armstrong”Kenneth A. Armstrong
P.Geo.
Engage with us directly at our investor hub.
Sign up at: https://investors.cornishmetals.com/link/mPqkle
For additional information please contact:
Cornish Metals |
Fawzi HananoIrene Dorsman |
investors@cornishmetals.com info@cornishmetals.com |
|
|
Tel: +1 (604) 200 6664 |
SP Angel Corporate Finance LLP (Nominated Adviser
& Joint
Broker) |
Richard Morrison Charlie Bouverat Grant Barker |
Tel: +44 203 470 0470 |
|
|
|
Cavendish Capital Markets Limited(Joint
Broker) |
Derrick LeeNeil McDonaldLeif Powis |
Tel: +44 131 220 6939Tel: +44 207 220 0500 |
|
|
|
Hannam & Partners(Financial
Adviser) |
Matthew HassonAndrew Chubb Jay Ashfield |
cornish@hannam.partners Tel: +44
207 907 8500 |
|
|
|
BlytheRay(Financial PR) |
Tim Blythe Megan Ray |
cornishmetals@blytheray.com Tel: +44 207 138 3204 |
|
|
|
Neither the TSX Venture Exchange nor its
Regulation Services Provider (as that term is defined in the
policies of the TSX Venture Exchange) accepts responsibility for
the adequacy or accuracy of this release.
Caution regarding forward looking
statements
This news release contains certain
“forward-looking information” and “forward-looking statements”
(collectively, “forward-looking statements”). Forward-looking
statements include predictions, projections, outlook, guidance,
estimates and forecasts and other statements regarding future plans
and operations, the realisation, cost, timing and extent of mineral
resource or mineral reserve estimates, estimation of commodity
prices, currency exchange rate fluctuations, estimated future
exploration expenditures, costs and timing of the development of
new deposits, success of exploration activities, permitting time
lines, requirements for additional capital and the Company’s
ability to obtain financing when required and on terms acceptable
to the Company, future or estimated mine life and other activities
or achievements of Cornish Metals, including but not limited to:
the balance of the cash consideration due to Cornish in respect of
the sale of the Mactung and Cantung royalty interests;
mineralisation at South Crofty, mine dewatering and construction
requirements; the development, operational and economic results of
the preliminary economic assessment, including cash flows, capital
expenditures, development costs, extraction rates, recovery rates,
mining cost estimates and returns; estimation of mineral resources;
statements about the estimate of mineral resources and production
of minerals; magnitude or quality of mineral deposits; anticipated
advancement of the South Crofty project mine plan; exploration
potential and project growth opportunities for the South Crofty tin
project and other Cornwall mineral properties, the Company’s
ability to evaluate and develop the South Crofty tin project and
other Cornwall mineral properties, strategic vision of Cornish
Metals and expectations regarding the South Crofty mine, timing and
results of projects mentioned. Forward-looking statements are
often, but not always, identified by the use of words such as
“seek”, “anticipate”, “believe”, “plan”, “estimate”, “forecast”,
“expect”, “potential”, “project”, “target”, “schedule”, “budget”
and “intend” and statements that an event or result “may”, “will”,
“should”, “could”, “would” or “might” occur or be achieved and
other similar expressions and includes the negatives thereof. All
statements other than statements of historical fact included in
this news release, are forward-looking statements that involve
various risks and uncertainties and there can be no assurance that
such statements will prove to be accurate and actual results and
future events could differ materially from those anticipated in
such statements.
Forward-looking statements are subject to risks
and uncertainties that may cause actual results to be materially
different from those expressed or implied by such forward-looking
statements, including but not limited to: risks related to receipt
of regulatory approvals, risks related to general economic and
market conditions; risks related to the availability of financing;
the timing and content of upcoming work programmes; actual results
of proposed exploration activities; possible variations in Mineral
Resources or grade; outcome of any future feasibility studies;
projected dates to commence mining operations; failure of plant,
equipment or processes to operate as anticipated; accidents, labour
disputes, title disputes, claims and limitations on insurance
coverage and other risks of the mining industry; changes in
national and local government regulation of mining operations, tax
rules and regulations. The list is not exhaustive of the factors
that may affect Cornish’s forward-looking statements.
Cornish Metals’ forward-looking statements are
based on the opinions and estimates of management and reflect their
current expectations regarding future events and operating
performance and speak only as of the date such statements are made.
Although the Company has attempted to identify important factors
that could cause actual actions, events or results to differ from
those described in forward- looking statements, there may be other
factors that cause such actions, events or results to differ
materially from those anticipated. There can be no assurance that
forward-looking statements will prove to be accurate and
accordingly readers are cautioned not to place undue reliance on
forward-looking statements. Accordingly, readers should not place
undue reliance on forward-looking statements. Cornish Metals does
not assume any obligation to update forward-looking statements if
circumstances or management’s beliefs, expectations or opinions
should change other than as required by applicable law.
Caution regarding non-IFRS
measures
This news release contains certain terms or
performance measures commonly used in the mining industry that are
not defined under International Financial Reporting Standards
("IFRS"), including "all-in sustaining costs". Non-IFRS measures do
not have any standardized meaning prescribed under IFRS, and
therefore they may not be comparable to similar measures employed
by other companies. The data presented is intended to provide
additional information and should not be considered in isolation or
as a substitute for measures of performance prepared in accordance
with IFRS and should be read in conjunction with Cornish Metals’
consolidated financial statements and Management Discussion and
Analysis, available on its website and on SEDAR+ at
www.sedarplus.ca.
Market Abuse Regulation (MAR)
Disclosure
The information contained within this announcement is deemed by
the Company to constitute inside information pursuant to Article 7
of EU Regulation 596/2014 as it forms part of UK domestic law by
virtue of the European Union (Withdrawal) Act 2018 as amended.
Appendix
“alteration halo” means a border of minerals
produced by hydrothermal alteration in the rock surrounding a
vein
“cassiterite” means a tin oxide mineral which is
the principal source for tin metal
“Cu” means Copper
"grade(s)" means the quantity of ore or metal in
a specified quantity of rock
"Indicated Mineral Resource" is that part of a
Mineral Resource for which quantity, grade or quality, densities,
shape and physical characteristics are estimated with sufficient
confidence to allow the application of mining, processing,
metallurgical, infrastructure, economic, marketing, legal,
environmental, social and governmental factors to support mine
planning and evaluation of the economic viability of the deposit.
Geological evidence is derived from adequately detailed and
reliable exploration, sampling and testing and is sufficient to
assume geological and grade or quality continuity between points of
observation. An Indicated Mineral Resource has a lower level of
confidence than that applying to a Measured Mineral Resource and
may only be converted to a probable mineral reserve.
"Inferred Mineral Resource" is 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 and grade or quality continuity. An Inferred Mineral
Resource has a lower level of confidence than that applying to an
Indicated Mineral Resource and must not be converted to a mineral
reserve. It is reasonably expected that the majority of Inferred
Mineral Resources could be upgraded to Indicated Mineral Resources
with continued exploration. An Inferred Mineral Resource is based
on limited information and sampling gathered through appropriate
techniques from locations such as outcrops, trenches, pits,
workings and drill holes.
"JORC Code" means the 2012 edition of the
Australasian Code for Reporting of Exploration Results, Mineral
Resources and Ore Reserves prepared by the Joint Ore Reserves
Committee of the Australasian Institute of Mining and Metallurgy,
Australian Institute of Geoscientists and Minerals Council of
Australia. The JORC Code is an acceptable foreign code for purposes
of NI 43-101.
"Lodes" means a vein of metal ore in the
earth
"MRE" means Mineral Resource Estimate
"kt" means thousand tonnes
"Mt" means million tonnes
“NI 43-101” means National Instrument 43-101 –
Standards of Disclosure for Mineral Projects issued by the Canadian
Securities Administrators, which provides standards of disclosure
of scientific and technical information regarding mineral
projects
“Sn” means Tin
"t" means tonnes
“tourmaline” means the crystalline silicate
mineral group that occurs as prismatic crystals in
granitic and other rocks
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