News

July 27, 2015

Strategic Property Option in Advance of Drilling on the Vine Property

Toronto, Ontario – July 27, 2015 – Exploration on PJX Resources Inc.’s (the” Company”) Vine Property has identified massive sulphide mineralization and geology that support the potential for a Sedex (sedimentary exhalative) zinc-lead-silver type of deposit. This work has provided new insight on geological controls that could influence a deposit’s […]
June 24, 2015

Mineralization Discovered On Vine Property Supports Potential For Sedex Type Of Deposit

Toronto, Ontario – June 24, 2015 – PJX Resources is pleased to announce that the most recent drilling on the Vine Property has encountered mineralization that supports the potential for a Sedex (sedimentary exhalative) type of deposit. Two gravity targets (West and East) have been explored and drilled during this […]
April 8, 2015

PJX Resources Modifies and Completes Private Placement

Toronto, Ontario – April 8, 2015 – PJX Resources Inc. (“PJX” or “the Company”) announces that it has modified and completed a Non-Brokered Private Placement (the “Offering”) for total proceeds of $1,273,000. The Company has modified and completed an Offering of an aggregate of 6,365,000 units consisting of 3,605,000 flow […]
April 1, 2015

PJX Resources Completes Private Placement

Toronto, Ontario – April 1, 2015 – PJX Resources Inc. (“PJX” or “the Company”) announces that it has completed a Non-Brokered Private Placement (the “Offering”) for total proceeds of $1,273,000. The Company undertook an Offering of an aggregate of 6,365,000 units consisting of 2,855,000 flow through units (“Flow Through Unit”) and […]
March 19, 2015

Drilling Discovers Favourable Geological Environment To Host A Sedex Type Deposit On The Vine Property

Toronto, Ontario – March 19, 2015 – PJX Resources Inc. (the “Company” or “PJX”) is pleased to announce the results of the Company’s most recent drill program. Drill hole VA15-02 has intersected Proterozoic age Lower Aldridge sediments that contain anomalous sphalerite (zinc sulphide) and pyrrhotite (iron sulphide) mineralization along fractures […]