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par Aclara Resources Inc. (isin : CA00461M1032)

Aclara Extends High Grade Mineralisation Thickness at Carina from 6.1 meters to 11.1 meters Through a Positive Drilling Campaign

TORONTO, ON / ACCESSWIRE / May 28, 2024 / Aclara Resources Inc. ("Aclara" or the "Company") (TSX:ARA) is pleased to provide the drilling results from its Phase 1 reverse circulation ("RC") drilling campaign executed between November 2023 and April 2024 on its regolith-hosted ion adsorption clay project, known as the "Carina Module", located in the State of Goiás, Brazil. The Phase 1 RC drilling campaign, which was comprised of 1,998 meters of drilling within 80 drill holes, has confirmed that the mineralization extends through the full depth of the regolith to the bedrock and provides a greater level of certainty regarding the geological interpretation of the deposit and the existence of rare earth elements throughout the full cross-section of the regolith.

Highlights

  • Depth Mineralization Confirmed: Results from the Phase 1 RC drilling campaign confirm that the mineralisation extends through the full depth of the regolith to the bedrock. The average high-grade mineralization thickness has increased from 6.1 meters reported in the previous auger drilling campaign to 11.1 meters.
  • Consistent Grades and Rare Earths Distribution: The results reflect that the Total Rare Earth Oxide ("TREO") 1 and the Desorbible Rare Earth Oxide ("DREO") 2 grades as well as the Rare Earths Distribution in the product basket, are consistent with those reported in the previous auger drilling campaign. Table 1 below compares the results of the RC drilling campaign with the auger drilling campaign and Table 2 provides a selection of high-grade drillhole results.
  • Improved Reliability: The results provide a greater understanding of the mineralised horizons through the full depth of the regolith to the bedrock and will support execution of the Phase 2 drilling campaign, which will seek to convert the known inferred mineral resources to a measured and indicated resource category.
  • Metallurgical Compatibility: The Carina Module clays have been shown to be amenable to rare earths extraction using the same metallurgical process (the "Circular Mineral Harvesting" process) developed for the Chile-based Penco Module, which utilizes ammonium sulfate as the primary leaching solution. A 25-tonne bulk sample of Carina clays was processed in the Aclara Pilot Plant in Concepción, Chile in Q1 2024, where leaching results were consistent with the drill core assays.

The full set of results is included in Table 3 at the end of this press release. These results supplement the results obtained from the auger drilling campaign undertaken between February 2023 and September 2023, which comprised 1,630 meters within 201drill holes. The results of the auger drilling campaign also formed the basis of the maiden mineral resource estimate announced in Aclara's press release dated December 12, 2024, and which supported the preparation of the Carina Module Preliminary Economic Assessment ("PEA") dated January 12, 2024.

Next Steps

The Phase 1 RC drilling campaign results have provided the Company with a basis to further advance the following activities:

  • issuance of an updated Mineral Resource Estimate planned for July 2024;
  • issuance of an updated PEA of the Carina Module during Q3 2024;
  • execution of a 15,200-meter Phase 2 RC drill campaign to convert inferred mineral resource to a measured and indicated mineral resource category, which is expected to commence in June 2024; and
  • execution of a metallurgical test campaign during H2 2024 and H1 2025. Sample collections will be obtained through sonic drilling and sent to SGS Lakefield for mineralogical and recovery characterization, to serve as an input for the pre-feasibility study, as well as form the basis for a new semi-industrial scale piloting operation scheduled to occur in 2025.

Aclara COO, Barry Murphy, commented:

"We are very pleased with the results obtained from Aclara's recent RC drilling campaign as they have confirmed our expectation that the Carina Module deposit will increase in size to become a truly world-class heavy rare earth asset. Based on the positive Phase 1 RC drill results, the Company will be updating the Carina Module's mineral resource estimate and Preliminary Economic Assessment and proceeding with the next phase of RC drilling aimed at converting the known mineral resource from an inferred to a measured and indicated level of categorisation. The results obtained from Phase 2 RC drilling campaign are expected to provide support for the Carina Module prefeasibility study, as well as to provide samples for a more comprehensive metallurgical test work programme, which we believe will demonstrate the extraordinary value of this deposit."

Table 1. Comparison of Phase 1 RC drilling campaign results to the previously disclosed auger drilling campaign results.

Unit

RC Drilling Campaign

Auger Drilling Campaign

High-Grade Mineralization Thickness
Drilling

meters

1,998

1,693

Drill holes

#

80

236

Average Drill Depth

meters /drill hole

25.0

7.2

High Grade Mineralization Thickness

meters

11.1

6.1

TREO Grades (within the High-Grade Mineralization Range)
Total Rare Earth Oxides

ppm

1,803

1,510

Total NdPr Oxides ("NdPr_T")

ppm

354

283

Total DyTb Oxides ("DyTb_T")

ppm

57

46

DREO Grades (within the High-Grade Mineralization Range)
Desorbible Rare Earth Oxides

ppm

484

470

Desorbible NdPr Oxides ("NdPr_D")

ppm

130

131

Desorbible DyTb Oxides ("DyTb_D")

ppm

22

21

Rare Earths Distribution (within the High-Grade Mineralization Range)
NdPr Weight within the Basket

%

26.9%

27.8%

DyTb Weight within the Basket

%

4.5%

4.5%

Table 2. Summary of Carina Module´s top 10 RC drill hole results from the Phase 1 RC drilling campaign ordered by DREO grade, including only the regolith or saprolitization interval (the location of these drill hole collars are shown in Figure 2 below).

Drillhole

Length

From

To

TREO

DREO

NdPr_T

NdPr_D

Dy_T

Dy_D

Tb_T

Tb_D

m

m

m

ppm

ppm

ppm

ppm

% of DREO

ppm

ppm

% of DREO

ppm

ppm

% of DREO

RCCAR23024

5

0

5

1,891

1,015

401

351

35%

49.7

28.1

2.8%

7.6

5.6

0.6%

RCCAR23055

26

0

26

2,276

905

488

192

21%

96.5

45.3

5.0%

16.2

7.2

0.8%

RCCAR23016

18

8

26

2,239

897

490

354

39%

38.1

17.9

2.0%

6.8

3.4

0.4%

RCCAR23001

9

1

10

1,712

874

360

214

24%

75.3

50.1

5.7%

12.5

9.8

1.1%

RCCAR23033

8

0

8

2,791

856

650

279

33%

76.7

27.6

3.2%

13.1

5.0

0.6%

RCCAR23005

10

1

11

4,231

739

839

213

29%

101.7

21.2

2.9%

17.9

3.6

0.5%

RCCAR23054

12

0

12

2,657

787

597

151

19%

86.8

33.6

4.3%

14.9

5.5

0.7%

RCCAR23012

12

2

14

2,485

676

544

224

33%

33.3

16.4

2.4%

6.2

3.0

0.4%

RCCAR23008

16

0

16

3,095

638

626

224

35%

73.6

25.1

3.9%

13.4

4.8

0.8%

RCCAR23044

11

0

11

2,840

634

583

170

27%

82.5

25.0

4.0%

13.5

4.3

0.7%

Reverse Circulation Drilling Campaign Summary

A total of 1,998 meters of drilling within 80 RC drill holes was carried out from November 2023 to April 2024 as part of an exploration drilling campaign covering approximately 700 hectares within the area of the Carina Module (see Figures 1, 2, 3 and 4 below). The primary objectives of the drilling initiative were to:

  • obtain additional information to fully assess the Carina Module's potential (both laterally and at depth);
  • obtain guidance for future RC drilling campaigns, as needed to contribute to the definition of the Carina Module's indicated and measured resource estimates; and
  • establish a base for a future metallurgical test sample collection.

Figure 1. Images of the RC drilling campaign showing the operation and sampling methodology carried out at the Carina Module.

Geological Overview

The Rare Earth Element secondary minerals are released from the pink porphyritic monzogranite composed of quartz, oligoclase, microcline, and annite as essential minerals, which has suffered greisen alteration superimposed by weathering.

Figure 2 depicts the extensions of the upper pedolith, lower pedolith, and saprolite units, which define the mineralization overprint of the regolith-hosted ion-adsorption clay deposit. Figure 2 also demonstrates the collar locations of the previous auger drilling campaign and the Phase 1 RC drilling campaign.

Figure 2. Carina Module map with executed RC and auger drill holes, and the extension of the upper pedolith, lower pedolith and saprolite areas. RC and auger boreholes are displayed by red squares and blue dots, respectively. The ten highest DREO grade RC holes are labeled in the figure and exhibited in Table 2. Cross-sections A-A´ and B-B´ are illustrated in Figure 3.

Figure 3 depicts the regolith horizons across two cross-sections, A-A' and B-B'. Here, the saprolite is better defined and thicker, and demonstrates greater continuity than the results observed during the previous auger drilling campaign. The auger holes are annotated in black font, whereas the RC drill holes are annotated in blue font.

Figure 3. Cross-sections ‘A-A‘ and ‘B-B‘ as shown in Figure 2.

Sam

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