VANCOUVER, BC / ACCESSWIRE / March 9, 2023 / Aton Resources Inc. (TSXV:AAN) ("Aton" or the "Company") is pleased to update investors on the results of further metallurgical testwork from its Rodruin advanced exploration project. Rodruin is located within the Company's 100% owned Abu Marawat Concession ("Abu Marawat" or the "Concession"), in the Eastern Desert of Egypt.
Highlights:
"These metallurgical testwork results from the Rodruin oxides are again very encouraging, following on from the initial scoping level testwork which we undertook in 2021," said Tonno Vahk, Interim CEO. "The gold recoveries are good and indicate that the oxides from all the main mineralised zones at Rodruin will be amenable to processing by both conventional CIL and heap leach technologies. The Company is working towards its planned application for the mining licence at the Abu Marawat Concession in Q3 this year, based on the definition of "commercial discoveries" at both Rodruin and Hamama West, in accordance with our Concession Agreement with the Egyptian Mineral Resources Authority. The application will be based on planned mining projects on the oxides at both Rodruin and Hamama West, which will allow for the issuance of a 20-year mining licence, extendable for a further 10 years, which will be transformational for Aton. These latest metallurgical results provide us with the flexibility to evaluate various mining and processing options at Rodruin. Work is progressing on the mineral resource estimates at Rodruin and Hamama West, as well as further metallurgical testwork which is ongoing. In the field we are very close to completing the diamond drilling at Hamama, which is testing previously undrilled oxide mineralisation, and preparations are well underway for a 10,000m RC drilling programme planned to start in May on some of our excellent regional targets."
Metallurgical testwork programme
5 composite samples were prepared from the Rodruin mineral deposit for metallurgical testing, which were representative of the various oxide mineralisation types. This testwork programme was specifically focused on the oxide mineralisation at Rodruin and was designed to follow up on an initial scoping level programme carried out in 2021 (see news release dated August 3, 2021), which indicated that the Rodruin mineralisation is amenable to processing using conventional CIL technology.
Samples were composited from selected diamond drill half core intervals (HQ and PQ size), to produce total sample weights between 30-45kg. 4 samples were composited from the 4 main mineralised zones, specifically the Central Buttress, Aladdin's Hill NE, and the GF zones, which are represented mainly by variably gossanous carbonate hosted mineralisation, and the Aladdin's Hill zone, which is represented by phyllic alteration (quartz-sericite-kaolinite) hosted mineralisation (Figure 1). A fifth sample was composited from low grade (<0.5 g/t Au) mineralisation from the Central Buttress and GF zones. Details of the samples are provided in Table 1.
Metallurgical sample ID | Drill hole ID | Zone | Mineralisation type | Estimated Au grade (g/t) 1 |
ROMO-001 | ROD-052/053/055/084 | Aladdin's Hill | Phyllic alteration | 2.35 |
ROMO-002 | ROD-052/053/055/083/084 | Aladdin's Hill NE | Gossanous carbonate | 1.27 |
ROMO-003 | ROD-062/063/069/078/079 | Central Buttress Zone | Gossanous carbonate | 1.11 |
ROMO-004 | ROD-098/101/102/109 | GF Zone | Gossanous carbonate | 0.61 |
ROMO-005 | ROD-076/083/085/100/102 | Central Buttress/GF Zones | Gossanous carbonate | 0.33 2 |
Notes:
|
Table 1: Details of the metallurgical samples
The 5 composite samples were dispatched from Egypt to Wardell Armstrong International Ltd ("WAI") in December 2022, for metallurgical testing at their laboratory located in Cornwall, UK, with testwork commencing in January 2023. The samples were submitted for a process evaluation testwork programme consisting of head assays, XRD analysis, and fine whole ore and coarse ore bottle roll cyanide leach testing.
Head assays
Sub-samples of the 5 composite metallurgical samples were sent by WAI for head assay analysis at ALS Minerals' geochemical laboratory at Loughrea, Ireland, and were analysed for Au (screen fire assay), Ag, Cu, Pb, Zn, As, Fe and S. The results of the head assays are provided below in Table 2:
Head assay results | Estimated Au grade (g/t) 2 | ||||||||
Metallurgical sample ID | Assay (ppm) | Assay (%) | |||||||
Au 1 | Ag | Cu | Pb | Zn | As | Fe | S | ||
ROMO-001 | 2.42 | 12.75 | 1,545 | 483 | 644 | 126 | 4.18 | 0.08 | 2.35 |
ROMO-002 | 1.17 | 9.98 | 1,110 | 123 | 7,050 | 185 | 8.26 | 0.06 | 1.27 |
ROMO-003 | 1.20 | 20.60 | 525 | 1,310 | 3,060 | 79 | 12.75 | 0.17 | 1.11 |
ROMO-004 | 0.62 | 6.44 | 260 | 516 | 2,130 | 17 | 6.89 | 0.08 | 0.61 |
ROMO-005 | 0.36 | 4.56 | 79 | 53 | 3,170 | 73 | 12.10 | 0.09 | 0.33 |
Notes:
|
Table 2: Head assay results
The Au head assays measured by screen fire assay showed good correlation with the estimated grade of the composited drill core samples (Table 2 above).
The good correlation in assay results indicates that the composite samples prepared for metallurgical testwork were representative of the drill core intervals sampled.
Mineralogical analysis
The results of the XRD analysis are shown in Figure 2:
The XRD results showed most of the samples as being gangue dominated. The ROMO-001 composite sample was mainly composed of quartz, and the ROMO-003, ROMO-004 and ROMO-005 samples were mostly composed of dolomite, with iron oxides (hematite and goethite) present. The ROMO-002 composite sample contained a mixture of dolomite, quartz and iron oxides.
Whole ore leach tests
A series of whole ore leach tests were conducted on composite samples ROMO-001 to ROMO-004 to investigate the amount of gold and silver that can be recovered from each sample by means of processing by conventional CIL technology. The whole ore cyanidation leach tests were carried out at P 80 grind sizes of -75µm and -106µm to determine the effect of degree of liberation on gold and silver extraction. Results are summarised in Table 3 below.
Sample ID | Test ID | Grind size P 80 (μm) | Recovery after 48hrs (%) | NaCN consumption (kg/t) | Lime consumption (kg/t) | |
Au | Ag | |||||
ROMO-001 | LT1 | 106μm | 87.3 | 61.5 | 1.65 | 0.56 |
LT2 | 75μm | 87.7 | 65.6 | 1.47 | 0.51 | |
ROMO-002 | LT1 | 106μm | 88.2 | 48.4 | 2.22 | 0.44 |
LT2 | 75μm | 88.7 | 50.9 | 2.07 | 0.45 | |
ROMO-003 | LT1 | 106μm | 90.8 | 65.3 | 1.32 | 0.24 |
LT2 | 75μm | 91.7 | 65.7 | 1.20 | 0.31 | |
ROMO-004 | LT1 | 106μm | 91.8 | 51.6 | 0.98 | 0.31 |
LT2 | 75μm | 93.4 | 53.7 | 1.09 | 0.40 |
Table 3: Whole ore cyanidation leach test results
The test results for the samples leached to a grind size P 80 of -75µm showed final gold recoveries to range from 87.7% (ROMO-001) to 93.4% (ROMO-004), averaging 90.4% from the 4 samples, after 48 hours of leaching. Silver recoveries ranged from 50.9% (ROMO-002) to 65.7% (ROMO-003), averaging 59.0%. Leach kinetic profiles indicate that most of the gold was extracted after 24 hours.
The test results for the samples leached to a grind size P 80 of -106µm showed final gold recoveries to range from 87.3% (ROMO-001) to 91.8% (ROMO-004), averaging 89.5%, after 48 hours of leaching. Silver recoveries ranged from 48.4% (ROMO-002) to 65.3% (ROMO-003) averaging 56.7%. Leach kinetic profiles indicate that most of the gold was extracted after 24 hours.
Coarse ore bottle roll leach tests
A series of coarse ore bottle roll leach tests were conducted on each of the composite samples to investigate the amount of gold and silver that can be recovered from each sample by means of processing by heap leach technology. The coarse ore bottle roll cyanidation leach tests were carried out at P 100 crush size of -8mm to determine the gold and silver extractions at a fine crush size. Results are summarised in Table 4 below.
Sample ID | Metal extraction (back calculated head) | |||||
BLT1 % Au | BLT2 % Au | Average % Au | BLT1 % Ag | BLT2 % Ag | Average % Ag | |
ROMO-001 | 70.2 | 67.2 | 68.7 | 18.9 | 20.6 | 19.7 |
ROMO-002 | 73.3 | 75.6 | 74.5 | 18.9 | 19.7 | 19.3 |
ROMO-003 | 74.6 | 76.0 | 75.3 | 37.4 | 38.8 | 38.1 |
ROMO-004 | 76.7 | 75.8 | 76.2 | 22.3 | 22.8 | 22.5 |
ROMO-005 | 66.5 | 65.8 | 66.2 | 31.3 | 30.4 | 30.8 |
Table 4: Coarse ore bottle roll cyanidation leach test results
The test results for the samples leached at a crush size P 100 of -8mm showed average gold recoveries to range from 66.2% (ROMO-005) to 76.2% (ROMO-004), averaging 72.2% from the 5 samples, after 30 days of leaching. Average silver recoveries ranged from 19.3% (ROMO-002) to 30.8% (ROMO-005), averaging 26.1%. Leach kinetic profiles indicate that most of the gold was extracted after 10 days.
Discussion of results
The gold head assays reported by ALS correlated well with the estimated composite sample grades, calculated from the weighted diamond drill hole assays, and indicate that the composite metallurgical samples were representative of the sampled intervals.
The mineralogical (XRD) analysis indicates that the samples can be sub-divided into 3 broad categories of mineralisation, as follows:
Results of the whole ore cyanidation leach tests showed high gold leach extraction for all of the Rodruin oxide composites tested. At a grind size of 75µm average gold and silver leach extractions from the 4 samples were 90.4% and 59.0% respectively, while at a grind size of 106µm average gold and silver leach extractions from the 4 samples were 89.5% and 56.7% respectively. The grind size optimisation test results indicated that a finer grind size P 80 of -75µm resulted in both higher gold and silver leach extractions, however these did not significantly increase at the finer 75µm grind size, relative to the coarser 106µm grind size. Leach kinetics were very rapid with the majority of the gold extracted after 24 hours of leaching.
Results of the coarse ore bottle roll leach tests showed average gold and silver leach extractions from the 5 samples of 72.2% and 26.1% respectively, at a fine crush size P 100 of -8mm, and after 30 days of leaching. Leach kinetics were fairly rapid with the majority of the gold extracted after 10 days of leaching.
These initial whole ore and coarse ore bottle roll cyanidation leach test results indicate that the oxide mineralisation types from the Aladdin's Hill, Central Buttress Zone, Aladdin's Hill NE, and GF Zones tested in this variability programme will all be amenable to processing via both heap leach and conventional CIL technologies. The coarse ore bottle roll cyanidation leach test results from sample ROMO-005 (<0.5 g/t Au gossanous carbonate hosted mineralisation from the Central Buttress and GF zones) indicate that this low grade mineralisation type is also amenable to processing using heap leach technology.
Exploration activity update
About Aton Resources Inc.Aton Resources Inc. (AAN: TSX-V) is focused on its 100% owned Abu Marawat Concession ("Abu Marawat"), located in Egypt's Arabian-Nubian Shield, approximately 200 km north of Centamin's world-class Sukari gold mine. Aton has identified numerous gold and base metal exploration targets at Abu Marawat, including the Hamama deposit in the west, the Abu Marawat deposit in the northeast, and the advanced Rodruin exploration prospect in the south of the Concession. Two historic British gold mines are also located on the Concession at Sir Bakis and Semna. Aton has identified several distinct geological trends within Abu Marawat, which display potential for the development of a variety of styles of precious and base metal mineralisation. Abu Marawat is 447.7 km 2 in size and is located in an area of excellent infrastructure; a four-lane highway, a 220kV power line, and a water pipeline are in close proximity, as are the international airports at Hurghada and Luxor. | Qualified personThe technical information contained in this News Release was prepared by Gary Patrick BSc, MAusIMM, CP (Met), Principal Consultant of Metallurg Pty Ltd. Mr. Patrick is a qualified person (QP) under National Instrument 43-101 Standards of Disclosure for Mineral Projects. For further information regarding Aton Resources Inc., please visit us at www.atonresources.com or contact: TONNO VAHK Interim CEO |
Note Regarding Forward-Looking StatementsSome of the statements contained in this release are forward-looking statements. Since forward-looking statements address future events and conditions; by their very nature they involve inherent risks and uncertainties. Actual results in each case could differ materially from those currently anticipated in such statements. Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release. |
SOURCE: Aton Resources, Inc.