COMMUNIQUÉ DE PRESSE

par Faraday Copper Corp. (isin : CA2176212009)

Faraday Copper Announces Positive Metallurgical Results at its Copper Creek Project in Arizona

VANCOUVER, BC / ACCESSWIRE / February 26, 2024 / Faraday Copper Corp. ("Faraday" or the "Company") (TSX:FDY)(OTCQX:CPPKF) is pleased to announce the results of its metallurgical program at its Copper Creek project in Arizona, USA ("Copper Creek").

Paul Harbidge, President and CEO, commented "The positive results from our metallurgical program continue to support our work towards advancing the Copper Creek project by significantly improving the economic returns and future metal production profile. In addition, the Phase III drill program is underway with a focus on testing new targets and expanding the Mineral Resource. I am excited about the exploration upside, especially with the initial reconnaissance drill results from the Area 51 target, which identified a new near-surface mineralized breccia."

Metallurgical Program Highlights

The metallurgical program was designed to evaluate grind size optimization, gold recoveries, and test additional samples from the near-surface mineralization to further enhance project economics compared to the Preliminary Economic Assessment 1 ("PEA"). Key highlights include:

  • Achieved copper rougher 2 recoveries of 95% in the sulphide composite by applying a substantially larger grind size 3. The increased grind size confirms the following benefits:
    • Opportunity to increase copper rougher recoveries to over 97% by utilizing Coarse Particle Flotation ("CPF") scavenging. CPF supports a potential increase to mill throughput without increasing the tailings pressure filtration requirement;
    • Significant reduction in ball mill grinding energy compared to the PEA (approximately 50%); and
    • Maintained copper concentrate quality with a consistently high average concentrate grade of 30.5% copper.
  • Confirmed gold recoveries in copper concentrate of over 75% supporting the potential for payable gold in the copper concentrate, which was not considered in previous studies.
  • Significantly improved near-surface oxide recovery through column leach tests, which returned copper recoveries of 84% to 92% in 43 days with net acid consumption <12 kg/t, compared to 75% in 60 days with net acid consumption of 20 kg/t utilized in the PEA.

Zach Allwright, VP Projects and Evaluations, stated "The metallurgical program has uncovered significant upside, indicating that mill throughput in future technical studies could increase substantially from the PEA base case, while maintaining or enhancing metal recoveries. In addition, the test work highlights the opportunity to reduce operating costs and supports the potential for payable gold in the copper concentrate. Importantly, the Company's strategy of minimizing water consumption and limiting the surface footprint is supported by these favorable processing characteristics. We look forward to further increasing the value of the Copper Creek project."

Next Steps

Based on the outcomes of the metallurgical program and ongoing exploration results, the Company is targeting the following steps to continue to enhance the value of the project:

  • Exploration Drilling: Phase III drilling continues and is focused on reconnaissance drilling on new targets, expanding the Mineral Resource and better delineating high-grade mineralized zones.
  • Gold Assay Program: The Company continues to advance the gold assay program, currently focused on the Keel underground zone. Assay results from this program, paired with existing gold data, could support the inclusion of gold in future resource updates and project economics.
  • Metallurgical Assessments: Test work will be conducted as new resource targets are delineated. In addition, continued assessments will include further CPF flowsheet evaluation and a material type characterization program.
  • Technical Report Update: To incorporate updated geological, geotechnical, economic and metallurgical datasets.

For an overview of the metallurgical program and additional technical details, refer to the Appendix at the end of this news release.

Qualified Person

The scientific and technical information contained in this news release has been reviewed and approved by Faraday's Vice President, Projects and Evaluations, Zach Allwright, P.Eng., who is considered a Qualified Person under National Instrument 43-101 - Standards of Disclosure for Mineral Projects ("NI 43-101").

The information in this report relating to metallurgical test work results is based on and fairly reflects information reviewed by Mr. Peter Mehrfert, P.Eng. (Ausenco Engineering's consultant to Faraday). Mr. Mehrfert is a qualified metallurgist and has sufficient experience which is relevant to the management and interpretation of test work activities undertaken to qualify as Competent Person under NI 43-101. Mr. Mehrfert consents to the inclusion in the release of the matters based on their information in the form and context in which it appears.

About Faraday Copper

Faraday Copper is a Canadian exploration company focused on advancing its flagship copper project in Arizona, U.S. The Copper Creek project, is one of the largest undeveloped copper projects in North America with open pit and bulk underground mining potential. The Company is well-funded to deliver on its key milestones and benefits from a management team and board of directors with senior mining company experience and expertise. Faraday trades on the TSX under the symbol "FDY".

For additional information please contact:

Stacey Pavlova, CFA
Vice President, Investor Relations & Communications
Faraday Copper Corp.
E-mail: info@faradaycopper.com
Website: www.faradaycopper.com

To receive news releases by e-mail, please register using the Faraday website at www.faradaycopper.com.

Cautionary Note on Forward-Looking Statements

Some of the statements in this news release, other than statements of historical fact, are "forward-looking statements" and are based on the opinions and estimates of management as of the date such statements are made and are necessarily based on estimates and assumptions that are inherently subject to known and unknown risks, uncertainties and other factors that may cause actual results, level of activity, performance or achievements of Faraday to be materially different from those expressed or implied by such forward-looking statements. Such forward-looking statements and forward-looking information specifically include, but are not limited to, statements concerning the potential increase to copper recoveries and mill throughput, the expected copper concentrate quality, the potential for reduction in ball mill grinding energy, the expected gold and copper recoveries, the possibility of adding gold in future Mineral Resource Estimates and studies, the potential to reduce expected processing operating costs, and the exploration potential of the Copper Creek property.

Although Faraday believes the expectations expressed in such forward-looking statements are based on reasonable assumptions, such statements should not be in any way construed as guarantees of future performance and actual results or developments may differ materially. Accordingly, readers should not place undue reliance on forward-looking statements or information.

Factors that could cause actual results to differ materially from those in forward-looking statements include without limitation: market prices for metals; the conclusions of detailed feasibility and technical analyses; lower than expected grades and quantities of mineral resources; receipt of regulatory approval; receipt of shareholder approval; mining rates and recovery rates; significant capital requirements; price volatility in the spot and forward markets for commodities; fluctuations in rates of exchange; taxation; controls, regulations and political or economic developments in the countries in which Faraday does or may carry on business; the speculative nature of mineral exploration and development, competition; loss of key employees; rising costs of labour, supplies, fuel and equipment; actual results of current exploration or reclamation activities; accidents; labour disputes; defective title to mineral claims or property or contests over claims to mineral properties; unexpected delays and costs inherent to consulting and accommodating rights of Indigenous peoples and other groups; risks, uncertainties and unanticipated delays associated with obtaining and maintaining necessary licenses, permits and authorizations and complying with permitting requirements, including those associated with the Copper Creek property; and uncertainties with respect to any future acquisitions by Faraday. In addition, there are risks and hazards associated with the business of mineral exploration, development and mining, including environmental events and hazards, industrial accidents, unusual or unexpected formations, pressures, cave-ins, flooding and the risk of inadequate insurance or inability to obtain insurance to cover these risks as well as "Risk Factors" included in Faraday's disclosure documents filed on and available at www.sedarplus.ca.

This press release does not constitute an offer to sell or a solicitation of an offer to buy any securities in any jurisdiction to any person to whom it is unlawful to make such an offer or solicitation in such jurisdiction. This press release is not, and under no circumstances is to be construed as, a prospectus, an offering memorandum, an advertisement or a public offering of securities in Faraday in Canada, the United States or any other jurisdiction. No securities commission or similar authority in Canada or in the United States has reviewed or in any way passed upon this press release, and any representation to the contrary is an offence.

APPENDIX: OVERVIEW OF METALLURGICAL PROGRAM AND ADDITIONAL TECHNICAL DETAILS

Metallurgical Program Overview

The metallurgical program utilized samples from the Phase I and II drilling, to complement previous test work as summarized in the PEA. The metallurgical program was conducted by ALS Metallurgy, Kamloops, with oversight by Ausenco Engineering.

This test work program was designed to complete the following scope using samples taken throughout the resource area, with primary focus (and targeted sample coverage) on the open pit mill feed material:

  • SAG mill comminution and Bond Mill Work Index ("BMWi") testing completed on all samples.
  • Mineralogical composition assessment on three oxide, three transition and nine sulphide variability samples.
  • Detailed mineralogy particle mineral analysis ("PMA") completed on sulphide master composite and coarse fractions of CPF sulphide composite.
  • Flotation testing on sulphide composites and both sulphide and transition variability samples.
  • Hydrofloat testing on a CPF sulphide composite.
  • Column leach tests and oxide bottle roll tests on oxide samples.
  • Gold analyses on feed samples and test products.

The outcomes of the metallurgical test work will be assimilated with the historical test work to form the basis of the process design criteria for future technical study updates.

Sample Selection and Spatial Context

The metallurgical program comprised of 15 samples across the three material type domains, designed to complement historical sample coverage and ultimately result in an improved representation of the mine plan production profile envisaged in the PEA. While the focus of this program was on open pit materials, two underground samples were also included. Sample details are presented in Table 1.

Table 1: Metallurgical Sample Details

Material

Met ID

Area

Domain

Drill hole ID

Depth (m)

Cu

Mo

Ag

Au

from

to

%

%

g/t

g/t

Oxide

MET23-01

White bear

OP

22-008

8

26

0.58

0.001

1.0

0.02

MET23-02

Copper Knight SE

OP

23-026

20

37

0.18

0.001

1.0

0.02

MET23-03

Hilltop

OP

23-021

8

23

0.24

<0.001

1.0

0.02

Transition

MET23-04

Copper Knight

OP

22-016

61

70

0.67

0.001

1.3

0.01

MET23-05

Copper Prince

OP

22-018

107

124

0.83

0.009

1.2

0.02

MET23-06

Copper Giant

OP

22-015

8

14

2.01

0.008

3.4

0.26

Sulphide

MET23-07

Copper Giant

OP

22-012

33

43

0.34

0.002

0.4

0.02

MET23-08

Copper Giant

OP

22-012

62

80

0.40

0.001

0.7

0.03

MET23-09

Childs Aldwinkle

OP

23-023

188

208

0.91

0.020

3.8

0.13

MET23-10

Childs Aldwinkle

OP

23-023

223

239

0.42

0.026

1.0

0.02

MET23-11

Keel

UG

23-024

751

765

0.47

0.003

3.5

0.07

MET23-12

Keel

UG

23-024

939

949

0.62

0.004

5.9

0.02

MET23-13

Pole

OP

23-032

75

91

0.59

<0.001

4.0

0.05

MET23-14

Bald

OP

23-037

222

232

0.48

0.001

1.8

0.02

MET23-15

Mammoth

OP

22-008

493

507

0.79

0.001

1.0

<0.01

Note: Open pit domain is referenced as "OP" and underground domain is referenced as "UG".

Comminution Results

SAG and ball mill energy assessment tests were conducted on the variability samples, which included industry standard SAG mill comminution and BMWi measurements, respectively. Grind sizes stated herein refer to 80% passing ("P80") the specified particle size. Results are presented in Table 2.

Table 2: Comminution Results

Material

A x b

BMWi (kwh/t)

Min / Max

Average

Min / Max

Average

Oxide

32 / 59

45

-

-

Transition

41 / 49

45

9.9 / 12.0

10.9

Sulphide

30 / 42

37

12.3 / 14.3

13.3

The outcomes of the comminution test work are confirmatory of the PEA design basis and are within the design tolerances. BMWi results are marginally lower than the averages measured in the previous program.

Increasing the primary grind size to 220 µm could result in approximately a 13% reduction in ball mill grinding energy compared to the PEA estimate. Further increasing the grind size to 350 µm could result in a 50% reduction in ball mill grinding energy. Ball mill grinding energy was estimated in the PEA to account for roughly 24% of the total consumed power in the concentrator.

Flotation Performance - Sulphide Material

Flotation testing on the sulphide master composite culminated in a locked cycle test conducted at a primary grind size of 210 µm. It was determined that low dosages of potassium amyl xanthate ("PAX"), a less expensive and non-selective collector compared to what was considered in the PEA, was suitable for cleaner performance and improved recovery. Results are presented in Table 3.

Table 3: Locked Cycle Test Results

Sample

Primary Grind (µm)

Regrind (µm)

Feed Assay (%)

Concentrate Grade (%)

Recovery (%)

Cu

Mo

Cu

Mo

Cu

Mo

Sulphide Master
Composite

210

33

0.56

0.007

31.2

0.33

94.2

85.2

Grind series testing suggested that coarser primary grinds compared to the PEA (190 µm) can be applied. More aggressive primary grind sizes were evaluated on the CPF sulphide composite and the variability samples. Test work confirms that targeting 350 µm resulted in only marginally lower copper recoveries. Rougher circuit copper recoveries were consistently high at the grind sizes tested. Results are presented in Table 4.

Table 4: Sulphide Rougher Flotation Results

Sample ID

Primary Grind (µm)

Rougher Mass (%)

Feed (%)

Rougher Recovery (%)

Cu

Mo

Cu

Mo

MET23-07

420

6.1

0.33

0.002

80.7

53.9

MET23-08

343

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