ALX Resources Corp. Receives Analytical Results from the Gibbons Creek Uranium Project, Athabasca Basin, Saskatchewan

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Vancouver, British Columbia--(Newsfile Corp. - June 13, 2024) - ALX Resources Corp. (TSXV: AL) (FSE: 6LLN) (OTC: ALXEF) ("ALX" or the "Company") is pleased to announce the results of the 2024 winter drilling program and upcoming summer 2024 exploration plans at its Gibbons Creek Uranium Project ("Gibbons Creek", or the "Project") located in the northern Athabasca Basin near the community of Stony Rapids, Saskatchewan.

Gibbons Creek is the subject of an option earn-in transaction with Trinex Lithium Ltd., a wholly-owned subsidiary of Trinex Minerals Limited ("Trinex"), which is a publicly-traded mineral exploration company listed on the Australian Securities Exchange. Under the terms of a definitive agreement signed in May 2024, Trinex can earn an initial 51% interest and up to a 75% participating interest in the Project in two stages over a period of five years by making cash payments and common shares payments to ALX, and by incurring exploration expenditures at the Project (see ALX news release dated May 8, 2024).

Highlights of the 2024 Exploration Program

  • Assay results and downhole probe readings confirm the presence of anomalous uranium within the Airstrip Prospect at Gibbons Creek;

  • A comprehensive helicopter-borne vertical transient electromagnetic ("VTEMTM") survey is planned to commence in June 2024, covering the Airstrip and Butler Lake Prospects and a recently identified new target known as Gibbons East;

  • Further drilling is planned following the analysis and interpretation of the VTEM data;

  • Trinex is fully-funded to complete the upcoming work programs planned for 2024.

Results of the 2024 Drilling Program

Results from the 2024 winter drilling program have confirmed low-level uranium mineralization in four of the five holes completed having intersected anomalous uranium at or near the unconformity between the Athabasca Sandstone and underlying basement metasediments, which are variably altered. Results from the drilling greater than 100 parts per million ("ppm") U3O8 are shown in Table 1.

Table 1 - Assay Results from 2024 Drill Program

Hole ID

Sample ID

From
(m)

To
(m)

Interval
(m)

U3O8P
(ppm)

U3O8T
(ppm)

GC24-02

422023

108.92

109.42

0.5

325

384

GC24-03

422178

109.34

109.84

0.5

156

186

GC24-03

422179

109.84

110.34

0.5

259

382

GC24-03

422181

110.34

110.84

0.5

147

203

GC24-04

422083

107.18

107.54

0.36

157

208

GC24-04

422218

107.54

107.98

0.44

641

757

GC24-05

422278

103.06

103.56

0.5

134

198

 

(P: uranium results by partial digestion; T: uranium results by total digestion)

The geochemical uranium assay results (expressed in ppm U3O8) were obtained using a standard sampling interval of 0.5 metres; smaller intervals may be used such that individual samples do not cross lithological contacts or unit boundaries. These sampling intervals are suitable for uranium mineralization such as the blebby and sporadic mineralization intersected in drill hole GC24-04 (Fig. 1). Gamma probe radiometric readings (expressed in cps) are obtained from a different (i.e., larger) volume of rock than assay samples and hand-held scintillometer cps readings, and typically give larger relative values compared to hand-held scintillometer readings.