Forsys Metals Corp ("Forsys" or the "Company")
(TSX:FSY)(FRANKFURT:F2T)(NAMIBIAN:FSY) today announced further
positive drilling results at the Norasa Uranium Project ("Norasa")
from an extension exploration program on the Company's fully
permitted Valencia Mining Licence 149 ("ML 149") in Namibia,
Africa. The drilling program was completed on the Company's
recently discovered deposit, "Valencia East" which is located 500
metres northeast from the planned Valencia production pit (see
Figure 1). Initial drilling activities commenced on 20 November
2012 and 15 percussion holes completed before year-end. This
release reports on an additional 30 percussion drill holes
completed in Q1 2013. The total metres drilled in this phase were
3,185 meters and a total of 5,436 metres have been drilled since
the drilling program commenced.
The Company is also pleased to announce the latest results of a
metallurgical test program that began during the latter part of
2012. The previous Snowden Technical Report released in January
2010 reported processing recoveries of 85.7%. The current results
from SGS Lakefield in Johannesburg indicate Forsys will be able to
achieve an overall plant recovery exceeding 88%.
Marcel Hilmer, Chief Executive Officer, commented, "The
continuing positive drilling results from Valencia East are very
encouraging and further indicate the potential for a significant
high-grade area located in close proximity to the main Valencia
deposit and proposed processing plant. We are very pleased that
this program continues to increase both the potential resources and
the overall grade of Norasa. We are further encouraged by the SGS
report which indicates an increased processing recovery of greater
than 2% over those in the Company's previous Technical Report."
Valencia East - Highlighted Drilling Results
Table 1: Highlights of recent assay results from Valencia East Percussion
Drilling
(significant intersections with minimum interval of 1.0 metre)
-----------------------------------------------------------------------
Grade (ppm
Hole From (m) To (m) Interval (m) U3O8)
-----------------------------------------------------------------------
VEPD-016 58.5 63.6 5.1 204
Including 60.0 61.6 1.6 280
-----------------------------------------------------------------------
VEPD-017 72.0 73.8 1.8 223
-----------------------------------------------------------------------
VEPD-018 118.4 138.2 19.8 169
Including 120.8 123.0 2.2 209
Including 130.1 132.6 2.5 231
Including 137.0 138.1 1.1 506
-----------------------------------------------------------------------
VEPD-020 13.3 14.9 1.6 248
Including 13.4 14.4 1.0 305
-----------------------------------------------------------------------
VEPD-021 20.2 23.6 3.4 186
Including 21.8 22.8 1.0 215
-----------------------------------------------------------------------
VEPD-022 28.8 30.4 1.6 218
-----------------------------------------------------------------------
VEPD-025 18.8 21.4 2.6 203
74.8 76.0 1.2 312
129.3 132.2 2.9 204
Including 130.1 131.5 1.4 238
133.8 135.7 1.9 194
Including 133.8 134.9 1.1 260
-----------------------------------------------------------------------
VEPD-026 82.4 83.4 1.0 319
-----------------------------------------------------------------------
VEPD-027 68.4 69.5 1.1 195
77.6 81.5 3.9 188
100.4 119.8 19.4 240
-----------------------------------------------------------------------
VEPD-028 55.4 56.4 1.0 215
120.0 129.5 9.5 245
Including 120.0 121.1 1.1 384
Including 121.8 123.0 1.2 330
Including 127.2 129.5 2.3 266
-----------------------------------------------------------------------
VEPD-029 86.4 87.4 1.0 204
90.0 92.2 2.2 192
Including 91.0 92.0 1.0 257
-----------------------------------------------------------------------
VEPD-030 72.9 75.6 2.7 364
Including 73.5 75.3 1.8 484
96.8 98.0 1.2 205
-----------------------------------------------------------------------
VEPD-031 42.3 49.3 7.0 237
Including 43.7 47.9 4.2 289
66.0 68.3 2.3 241
Including 66.4 67.4 1.0 348
-----------------------------------------------------------------------
VEPD-035 50.7 51.9 1.2 199
68.3 74.4 6.1 777
Including 68.6 72.0 3.4 1244
-----------------------------------------------------------------------
VEPD-036 17.7 18.7 1.0 210
86.8 89.3 2.5 347
Including 87.3 88.3 1.0 589
122.7 125.5 2.8 252
Including 124.2 125.2 1.0 399
-----------------------------------------------------------------------
VEPD-037 39.7 40.9 1.2 213
44.0 63.3 19.3 244
Including 44.1 45.1 1.0 351
Including 46.9 49.6 2.7 326
Including 54.0 55.4 1.4 302
Including 56.3 58.0 1.7 282
Including 58.9 60.9 2.0 382
94.3 95.8 1.5 242
-----------------------------------------------------------------------
VEPD-038 39.7 40.9 1.2 216
53.9 55.8 1.9 220
-----------------------------------------------------------------------
VEPD-039 16.3 18.1 1.8 266
32.2 33.3 1.1 331
34.3 36.2 1.9 222
44.5 46.0 1.5 226
-----------------------------------------------------------------------
Valencia East is located within the existing fully permitted
Valencia Mining Licence, ML 149.
To view FIGURE 1, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig1.pdf.
Geology
The geology in Valencia East is very similar to that of the
Valencia Main deposit with uranium mineralization associated to
post D3 deformation anatectic alaskite intruding as stock-like
bodies (sills) into the SE limb of an antiformal structure of Nosib
and Swakop Group metasediments (see Figure 2 and 3).
The overall structure is NE/SW trending with strata dipping
towards the SE.
The alaskite intruded sub-parallel to the steep metasediments
and crosscuts in a structural weakness zones and increasing in
volume over very short distances. It is in this position where
higher mineralization has been encountered.
The wider area is characterized by typical interference of F3/F4
events partly resulting in "Z-shaped king folds" such as in the
Valencia Main area. Overall orientation is following the main
Damaran strike (NE). Fold and bedding planes are following this
direction and strata boundaries are principally dipping towards the
SE.
The mineralized intrusion pulse at Valencia East is interpreted
to be of post Damaran age.
To view FIGURE 2a, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig2.pdf.
To view FIGURE 2b, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig2b.pdf.
Valencia East is a structural extention of Valencia Main forming
a more regular succession of metasediments with remnants of D-type
alaskite occuring in form of boudinaged sills and dykes. The
alaskite emplacement is in general conformable but in the center of
Valencia East thickening and partly transgressive. Fig 3 displays,
from left to right (West to East) alaskite shoots intruding
subparallel to Khan, Rossing and Chuos Formation.
To view FIGURE 3, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig3.pdf.
Mineralisation
The alaskite is moderately to highly radioactive on surface (see
Figure 4) and proven to continue to depth beyond current drill
cover. The granite is characterized by a coarse grain texture and
the occurrence of frequent smoky quartz clusters.
To view FIGURE 4, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig4.pdf.
Future Drilling Programs
Following on from the current phase of drilling at Valencia
East, drilling activities will move to the Valencia North deposit
to begin delineating that ore body. This exploration program will
initially target 3,000 metres and is designed to establish the
outline of another prospective deposit and to enable planning for
further sampling and analytical work.
Initial drill sites have already been laid out at Valencia North
and drill access (tracks and platforms) has being established.
VALENCIA METALLURGICAL TESTWORK
Forsys is pleased to announce the latest results of a
metallurgical test program that began during the latter part of
2012. The objective of these tests was to get a better
understanding of the acid leach behaviour.
Previous process plant design and study work relied on several
phases of leach test work that had been conducted over a number of
years. Various test conditions had been used over this period with
varying results. Previous study work assumed a constant leach
recovery of uranium (acid dissolution) in the process models. There
was however some evidence that there was a consistency in the
residue value of the tailings; i.e. leach recovery was a function
of the grade of the samples. As a result, a decision was made to
embark on a much more extensive leach test program than had been
conducted in the past to determine:
-- the leach recovery under a standard set of conditions (previously
identified as the Valencia optimum leach conditions), and
-- confirm that there is a constant leach residue or at least that the
recovery is a function of the head grade.
Samples were taken from drill core representing a uniform
spacial and grade distribution of mineralized zones of at least 5m
wide. A total of 48 samples were chosen; 11 from the Measured
Resource category, and the rest from the Indicated category.
Samples came from different boreholes across the Valencia main
deposit.
All samples were sent to SGS Lakefield in Johannesburg for the
test work. Each sample was leached for a period of 24 hours with
samples taken at 4, 8, 12 and 24 hours. Tests were conducted at
standard conditions of 80% passing 850 micron grind, 25C and pH of
1.8. The recoveries, as a function of grade, are illustrated below.
Although the variation in results is noted, there appears to be a
general trend of increasing grade with recovery.
To view FIGURE 5, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig5.pdf.
To view FIGURE 6, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig6.pdf.
The average recovery with time for all 48 samples is summarized
below, compared with the 87% average acid dissolution recovery used
in previous studies. It is the Company's opinion that in spite of
the variation in results, the trend of recovery being a function of
grade cannot be ignored and expect an acid dissolution of at least
90% with an overall plant recovery exceeding 88%. This compares
favorably to the overall plant recovery of 85.7% reported in the
Snowden Technical Report of January 2010. The Company anticipates
acid consumption was also shown to be 16% less that previously
assumed, now at 16.2 kg/t H2SO4.
To view FIGURE 7, please visit the following link:
http://media3.marketwire.com/docs/fsy-fig7.pdf.
NORASA - CONSOLIDATED NAMIBIAN PROJECTS
Norasa is the name for Forsys' consolidated neighboring uranium
properties; Valencia (Mining Licence 149) and Namibplaas (Exclusive
Prospecting Licence 3638). Forsys is in the process of updating the
previous Snowden Technical Report from January 2010 for Norasa
Uranium, including the various satellite deposits currently being
explored.
NI 43-101 and Qualified Persons
Mr. Martin Hirsch, M.Sc in Geology and a member of the British
IMMM, Chief Geologist for Forsys Metals Corp., is the designated
Qualified Person responsible for the Company's exploration
programs. He is familiar with the methods for Quality Assurance and
Quality Control specifically applicable to uranium. Mr Hirsch has
sufficient experience that is relevant to the style and
mineralization, type of deposit and the use of radiometrics in
resource estimates as well as to the activity he is undertaking to
qualify as a Qualified Person under NI 43-101.
About Forsys Metals Corp
Forsys Metals Corp is an emerging uranium producer with 100%
ownership of the fully permitted Valencia uranium project and the
Namibplaas uranium project in Namibia, Africa a politically stable
and mining friendly jurisdiction. Information regarding current
National Instrument 43-101 compliant Resource and Reserves at
Valencia and Namibplaas are available on our website.
On behalf of the Board of Directors of Forsys Metals Corp
Marcel Hilmer, Chief Executive Officer
Sedar Profile #00008536
Forward-Looking Information
This news release contains projections and forward-looking
information that involve various risks and uncertainties regarding
future events. Such forward-looking information can include without
limitation statements based on current expectations involving a
number of risks and uncertainties and are not guarantees of future
performance of the Company. The following are important factors
that could cause Forsys actual results to differ materially from
those expressed or implied by such forward looking statements:
fluctuations in uranium prices and currency exchange rates;
uncertainties relating to interpretation of drill results and the
geology; continuity and grade of mineral deposits; uncertainty of
estimates of capital and operating costs; recovery rates,
production estimates and estimated economic return; general market
conditions; the uncertainty of future profitability; and the
uncertainty of access to additional capital. Full description of
these risks can be found in Forsys Annual Information Form, dated
March 15, 2013, available on the Company's profile on the SEDAR
website at www.sedar.com. These risks and uncertainties could cause
actual results and the Company's plans and objectives to differ
materially from those expressed in the forward-looking information.
Actual results and future events could differ materially from
anticipated in such information. These and all subsequent written
and oral forward looking information are based on estimates and
opinions of management on the dates they are made and expressed
qualified in their entirety by this notice. The Company assumes no
obligation to update forward-looking information should
circumstances or management's estimates or opinions change.
Shares Outstanding: 109,875,422
The Toronto Stock Exchange has not reviewed and does not accept
responsibility for the adequacy or accuracy of this release.
Contacts: Forsys Metals Corp Marcel Hilmer Chief Executive
Officer +61 417 177 942mhilmer@forsysmetals.com
www.forsysmetals.com TMX Equicom Joe Racanelli +1 416-815-0700 Ext
243JRacanelli@equicomgroup.com
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