Fission Hits Six High-Grade Holes; Completes Winter Program

KELOWNA, British Columbia, March 20, 2018 (GLOBE NEWSWIRE) — FISSION URANIUM CORP. (“Fission” or “the Company“) is pleased to announce results from its final drill holes completed during the winter program at its’ PLS property, in Canada’s Athabasca Basin region. These include six resource-upgrade holes, which intercepted wide, high-grade radioactivity, including PLS18-573 (line 510E), which returned 11.65m of total composite >10,000 cps in 119.0M of total composite mineralization. In addition, nineteen geotechnical holes including three rock mechanic and sixteen overburden holes were completed along with two hydrogeology holes as Fission continues to acquire and evaluate data for the PLS pre-feasibility study “PFS” planned to be completed by the end of 2018.

Ross McElroy, President, COO, and Chief Geologist for Fission, commented,

“The Winter program has been a great success. As previously announced our exploration efforts have resulted in expanding the footprint of the R1515W zone with multiple high-grade step outs (see news release Mar 13, 2018) and now the PFS focused activities are likewise producing encouraging results: six in-fill holes designed to upgrade key areas of the Triple R deposit from inferred to indicated classification all intersected mineralization where projected. In addition, a series of detailed overburden and bedrock geotechnical holes tested their targets successfully and preliminary results indicate that the assumptions made with respect to mine design at the Preliminary Economic Assessment “PEA” level were reasonable, with detailed analysis and implementation into the mine design continuing over the next several months.”

Winter Program PFS Work Highlights

  • A total of six in-fill holes (1,915m) targeted key high-grade areas of the R780E zone, which are presently classified as inferred, with the intent to upgrade those areas to indicated.  It is anticipated that upgrading key areas of the resource from inferred to indicated would have a positive impact on the resource used for the PFS.
  • All six resource upgrade holes hit wide, high-grade mineralization, including hole PLS18-573 (line 510E)
    • 119.0m total composite mineralization over a 177.0m interval (between 59.5m – 236.5m), including
      • 11.65m of total composite mineralization >10,000 cps
  • Geotechnical drilling and analysis of rock mechanics in bedrock (3 holes totaling ~703m) in the proposed R780E open pit area
  • Geotechnical drilling of overburden where a proposed ring dike surrounding the open-pit perimeter would be located (16 holes totaling 1,028m)
  • Re-drill hydrogeological holes required for long-term ground-water analysis (2 holes totaling 240m)
  • Continuation of the Phase 2 metallurgical study
  • Continuation of data collection and analysis of the Baseline Environmental Study
  • Continuation of engagement with First Nations, community and government

The geotechnical program is important because any mine design contemplated at the “PEA” level (as completed 2015) is to a great degree, conceptual in nature. The winter 2018 geotechnical program has acquired data needed to confirm important assumptions, which, in turn, will further de-risk the project. All aspects of the winter geotechnical program were successfully completed, and preliminary results support the assumptions made for the PEA, particularly regarding physical properties of the overburden and low incidence of boulders within the glacial till. Analysis will continue during 2018. 

Table 1:  R780E Zone (Resource Classification Upgrade)

Hole IDZoneCollarHand-held Scintillometer Results On Mineralized Drillcore (>300 cps / >0.5M minimum)Lake
Depth
(m)
Sandstone
From – To
(m)
Basement Unconformity
Depth
(m)
Total Drillhole
Depth
(m)
Grid LineAzDipFrom (m)To (m)Width (m)CPS Peak Range
PLS18-573R780E510E334-72.459.560.51.0980 – 60006.955.5 – 56.156.1323.0
71.095.024.0<300 – 15000
98.5126.027.5<300 – 50800
131.0143.012.0<300 – 51000
148.0156.08.0310 – 5600
159.5174.014.5<300 – 4400
181.0212.531.5<300 – 3000
236.0236.50.5360
PLS18-575R780E720E335-72.4125.5126.00.53507.2NA58.3335.0
131.0131.50.5340
135.0165.030.0<300 – 40200
174.0175.51.5<300 – 570
181.0182.01.01600 – 7500
184.5185.51.02300 – 43800
194.0195.01.0430 – 620
198.0201.03.0<300 – 6400
204.5205.00.5330
PLS18-579R780E555E332-66.975.576.00.54007.058.7 – 59.759.7317.0
79.094.515.5<300 – 7100
102.0107.55.5350 – 50100
110.0111.01.0540 – 840
122.5125.02.5<300 – 1600
144.5146.52.0<300 – 440
149.5150.00.5550
190.0196.06.0<300 – 970
219.0223.04.0<300 – 580
PLS18-580R780E825E327-69.188.589.00.53707.1NA57.4317.0
94.098.54.5<300 – 600
101.0101.50.5730
107.5146.539.0<300 – 33400
156.5194.538.0<300 – 21500
199.5203.03.5<300 – 20600
207.0209.02.0<300 – 3700
211.5214.53.0<300 – 1400
217.0218.01.0950 – 1100
PLS18-581R780E750E338-69.8134.0137.03.0<300 – 3707.0NA57.8308.0
144.0175.531.5<300 – >65535
181.5190.08.5<300 – 8100
197.5201.54.0<300 – 9600
204.0206.52.5<300 – >65535
210.5217.57.0470 – >65535
232.5233.00.53000
PLS18-582R780E585E334-68.058.759.00.322007.0NA58.7314.6
73.083.010.0<300 – 50700
101.5102.00.5300
105.0107.52.5<300 – 390
115.0131.016.0<300 – 16200
134.5135.00.5670
159.0163.04.0340 – 840
174.0181.07.0<300 – 890
204.5205.00.5590
218.5221.02.5<300 – 2600

Table 2:  Geotechnical Rock Mechanic Drill Holes

Hole IDZoneCollarLakeSandstoneBasement UnconformityTotal Drillhole
AzDipDepth (m)From – To (m)Depth (m)Depth (m)
PLS18-PW-05R780E15-68.46.0NA62.1251.11
PLS18-PW-06R780E162-70.55.757.2 – 60.060.0200.18
PLS18-PW-07R780E60-64.27.767.7 – 69.269.2251.48

Table 3:  Geotechnical Overburden Drill Holes

Hole IDZoneCollarLakeSandstoneBasement UnconformityTotal Drillhole
AzDipDepth (m)From – To (m)Depth (m)Depth (m)
PLS18-RD-06R00E / R780E53-86.85.60NA53.462.11
PLS18-RD-07R00E / R780E249-89.28.4050.8 – 59.059.063.53
PLS18-RD-08R00E / R780E53-89.06.15NA57.972.55
PLS18-RD-09R00E / R780E190-87.35.54NA52.362.09
PLS18-RD-10R00E / R780E281-89.08.45NA61.375.45
PLS18-RD-11R00E / R780E137-88.94.4553.1 – 61.461.469.45
PLS18-RD-12R00E / R780E285-84.76.40NA63.476.95
PLS18-RD-13R00E / R780E324-86.78.10NA63.072.40
PLS18-RD-14R00E / R780E56-89.07.60NA63.073.95
PLS18-RD-15R00E / R780E0-90.05.56NANA53.84
PLS18-RD-16R00E / R780E0-90.05.05NANA54.24
PLS18-RD-17R00E / R780E0-90.05.78NA50.552.97
PLS18-RD-18R00E / R780E233-87.7NA54.064.97
PLS18-RD-19R00E / R780E236-88.0NA61.775.30
PLS18-RD-20R00E / R780E0-90.0NANA41.57
PLS18-RD-21R00E / R780E0-90.05.60NA50.356.97

Table 4:  Hydrogeological Drill Holes

Hole IDTotal Drillhole
Depth (m)
GW-E 261.85
GW-A 255.37

Natural gamma radiation in drill core that is reported in this news release was measured in counts per second (cps) using a hand held RS-121 Scintillometer manufactured by Radiation Solutions, which is capable of discriminating readings up to 65,535 cps. Natural gamma radiation in the drill hole survey that is reported in this news release was measured in counts per second (cps) using a Mount Sopris 2GHF-1000 Triple Gamma probe, which allows for more accurate measurements in high grade mineralized zones.  The Triple Gamma probe is preferred in zones of high grade mineralization.  The reader is cautioned that scintillometer readings are not directly or uniformly related to uranium grades of the rock sample measured, and should be used only as a preliminary indication of the presence of radioactive materials. The degree of radioactivity within the mineralized intervals is highly variable and associated with visible pitchblende mineralization. All intersections are down-hole.  All depths reported of core interval measurements including radioactivity and mineralization intervals widths are not always representative of true thickness.  The orientation of the mineralized intervals tend to follow that of lithologic contacts, and generally dip steeply to the south. Within the Triple R deposit, individual zone wireframe models constructed from assay data and used in the resource estimate indicate that all 5 zones have a complex geometry controlled by and parallel to steeply south-dipping lithological boundaries as well as a preferential sub-horizontal orientation. 

PLS Mineralized Trend & Triple R Deposit Summary

Uranium mineralization of the Triple R deposit at PLS occurs within the Patterson Lake Conductive Corridor and has been traced by core drilling over ~3.18km of east-west strike length in five separated mineralized “zones” which collectively make up the Triple R deposit. From west to east, these zones are: R1515W, R840W, R00E, R780E and R1620E. Through successful exploration programs completed to date, Triple R has evolved into a large, near surface, basement hosted, structurally controlled high-grade uranium deposit.  The discovery hole was announced on November 05, 2012 with drill hole PLS12-022, from what is now referred to as the R00E zone. 

The R1515W, R840W and R00E zones make up the western region of the Triple R deposit and are located on land, where overburden thickness is generally between 55m to 100m.  R1515W is the western-most of the zones and is drill defined to ~90m in strike-length, ~68m across strike and ~220m vertical and where mineralization remains open in several directions.  R840W is located ~515m to the east along strike of R1515W and has a drill defined strike length of ~430m.  R00E is located ~485m to the east along strike of R840W and is drill defined to ~115m in strike length.  The R780E zone and R1620E zones make up the eastern region of the Triple R deposit.  Both zones are located beneath Patterson Lake where water depth is generally less than six metres and overburden thickness is generally about 50m.  R780E is located ~225m to the east of R00E and has a drill defined strike length of ~945m.  R1620E is located ~210m along strike to the east of R780E, and is drill defined to ~185m in strike length.

Mineralization along the Patterson Lake Corridor trend remains prospective along strike in both the western and eastern directions. Basement rocks within the mineralized trend are identified primarily as mafic volcanic rocks with varying degrees of alteration.  Mineralization is both located within and associated with mafic volcanic intrusives with varying degrees of silicification, metasomatic mineral assemblages and hydrothermal graphite. The graphitic sequences are associated with the PL-3B basement Electro-Magnetic (EM) conductor.

Patterson Lake South Property

The 31,039 hectare PLS project is 100% owned and operated by Fission Uranium Corp. PLS is accessible by road with primary access from all-weather Highway 955, which runs north to the former Cluff Lake mine and passes through the nearby UEX-Areva Shea Creek discoveries located 50km to the north, currently under active exploration and development.

The technical information in this news release has been prepared in accordance with the Canadian regulatory requirements set out in National Instrument 43-101 and reviewed on behalf of the company by Ross McElroy, P.Geol., President and COO for Fission Uranium Corp., a qualified person.

About Fission Uranium Corp.

Fission Uranium Corp. is a Canadian based resource company specializing in the strategic exploration and development of the Patterson Lake South uranium property – host to the class-leading Triple R uranium deposit – and is headquartered in Kelowna, British Columbia.  Fission’s common shares are listed on the TSX Exchange under the symbol “FCU” and trade on the OTCQX marketplace in the U.S. under the symbol “FCUUF.”

ON BEHALF OF THE BOARD                                   Investor Relations
Rich Matthews
“Ross McElroy”                                                        TF: 877-868-8140
                                                                             rich@fissionuranium.com
Ross McElroy, President and COO                        www.fissionuranium.com

Cautionary Statement:

Certain information contained in this press release constitutes “forward-looking information”, within the meaning of Canadian legislation. Generally, these forward-looking statements can be identified by the use of forward-looking terminology such as “plans”, “expects” or “does not expect”, “is expected”, “budget”, “scheduled”, “estimates”, “forecasts”, “intends”, “anticipates” or “does not anticipate”, or “believes”, or variations of such words and phrases or state that certain actions, events or results “may”, “could”, “would”, “might” or “will be taken”, “occur”, “be achieved” or “has the potential to”.  Forward looking statements contained in this press release may include statements regarding the future operating or financial performance of Fission and Fission Uranium which involve known and unknown risks and uncertainties which may not prove to be accurate. Actual results and outcomes may differ materially from what is expressed or forecasted in these forward-looking statements. Such statements are qualified in their entirety by the inherent risks and uncertainties surrounding future expectations. Among those factors which could cause actual results to differ materially are the following: market conditions and other risk factors listed from time to time in our reports filed with Canadian securities regulators on SEDAR at www.sedar.com. The forward-looking statements included in this press release are made as of the date of this press release and the Company and Fission Uranium disclaim any intention or obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as expressly required by applicable securities legislation.

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