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42A06SW2010 2.20287 DELORO
Whole Rock Analytical Resultsfor
Diamond Drill Holes KDE99-01 and KDE99-02
Globex Mining Enterprises Inc.
Timmins Magnesite Project
Deloro Township, Ontario, Canada
NTS: 42A/6
0
010
8
R.V. Zalnieriunas P.Geo. Larder Lake, OntarioMay 4, 2000
file: c:\deloro\kde_ass.rpt
Summary
Whole rock major oxides (XRF) and multi-element ICP scans were completed on the
entire rock cores from diamond drill holes KDE99-01 and KDE99-02 by Globex Mining
Enterprises Inc.. Sampling was carried out on 3 metre intervals, where permitted.
Sampling was carried out at the end of February, and assay results were received in early
May, 2000.
The drilling of these holes was previously completed in November, 1999 and submitted for
assessment credit to provincial authorities. All work was carried out on claim P. 850094.
Drilling consisted of completing an 80 metre west stratigraphic fence step-out to previous
drilling on the West Magnesite Zone of the Timmins Magnesite deposit in Deloro
Township, Ontario.
Preliminary review of MgO wt'/'b values received for these drill holes indicates that
magnesite values may be greater than historically reported for the deposit. Further
investigations are warranted to assess grades and economic viability of the project.
42A06SW2010 2.20287 DELORO 010C
ii
Table of Contents
Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . i
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . l
Property; description and location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . l
Access . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Previous Work . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3i) Drill core sampling work parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3ii) Summary of sampling statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4iii) Significant results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Discussion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Conclusions and Recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Declaration of Qualifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Appendix A - Location Maps and Figures
Appendix B - Whole Rock Sampling Results and Major Oxide Plots(Addendum to Drill Logs KDE99-01 and KDE99-02)
Appendix C - Sample Statistics
Appendix D - Discrimination Plots
Appendix E - Miscellaneous Plots
Appendix F - Major Oxides vs TiO2 (wt07o)
Appendix G - Assay Certificates and Laboratory Procedures
Appendix H - Company Press Releases
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 A KDE99-02
Introduction
Work contained in this report is an addendum to work filed by Pentland Firth Ventures Ltd. on behalf of Kinross Gold Corp. and Royal Oak Mines Inc. ( see Yule, 1999), which detailed drilling results and visual mineralogical estimates for two diamond drill holes put down to test the western extent of the Timmins Magnesite deposit, Deloro Township, Ontario (MNDM work report W9960.00449).
Globex Mining Enterprises Inc. acquired the project in late February 2000 (company press release dated February 25, 2000) and retrieved the drill core ( holes KDE99-01 and KDE99-02) from Pentland's field offices in Porcupine, Ontario.
During February 2000, this core was examined, cut, and sent out for whole rock analysis. Results of this work are contained in this report.
Property; description and location
The Timmins magnesite project is situated in south-central Deloro Township, approximately 11 kilometres southeast of Timmins, Ontario.
The project is 10007o owned by Globex Mining Enterprises Inc., with offices at 146-14e rue, Rouyn-Noranda, Quebec. J9X2J3. (telephone 819-797-5242, fax 819-797-1470, Email [email protected]). The property consists of 19 unpatented mining claims for a total of 24 claim units, and a similar amount of surface-rights only patents, (see table l below)
Table 1: Claim Data
TOWNSHIP Claim 1 AREA Number
DELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORODELORO
PPPPPPPPPPPPPPPPPPP
725183725184781232849849849850849851850090850091850092850093850094850095850096850097850098878736
120779912126281219705
Recording Date
1984-FEB-281984-FEB-281984-FEB-281985-JUN-041985-JUN-041985-JUN-041985-MAY-071985-MAY-071985-MAY-071985-MAY-071985-MAY-071985-MAY-071985-MAY-071985-MAY-071985-MAY-071987-FEB-021997-AUG-281996-FEB-121999-MAY-05
Claim Due Date
2001-FEB-282001-FEB-282001-FEB-282001-JUN-042001-JUN-042001-JUN-042001-MAY-072002-MAY-072000-MAY-072000-MAY-072001-MAY-072001-MAY-072002-MAY-072002-MAY-072002-MAY-072001-FEB-022000-AUG-282001-FEB-122001-MAY-05
Percent Option
100.100.100.100.100.100.100.100.100.100.100.100.100.100.100.100.100.100.100.
00000000000000000000000000000000000000
Work Total Total Required Applied Reserve
40040040040040040040040027340040040040040040040012004001600
640064006400600060006000600064005727560060006000640064006400520012001200
0
0340000
4053330
156110000
1400
Claim Bank
0000000000000000000
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 A KDE99-02
Access
Access to the project site is from Timmins, best by road via Pine Street South for 12 kilometres, and a series of forest access roads (McArthur Road) leading east, 3km to the major "Wishbone" power line, and then northerly along a seasonal road, 3km, that extends through the centre of the claim group.
Previous Work
The property was originally acquired by Canadian Magnesite Mines in 1962. Pamourex staked the claim block in 1992-83 when the property lapsed for non-payment of mining lands taxes and re-staked the claims in 1984-85.
Drilling by Canadian Magnesite Mines Ltd. ("CMML") in 1962 and subsequent drilling by Pamour in the 1980's outlined a mineral resource of 20 million tonnes containing 5207o magnesite and 2807o talc.
During August of 1989, Magnesium Refractories Ltd. ("MRL") entered into a Purchase Agreement with Pamourex. In 1993, MRL completed a positive feasibility study. The project was returned to Pamourex in 1994.
In 1997, Royal Oak Mines Inc. re-staked some of the property and carried out some limited field work )line cutting, geophysical surveys and claim line re-cutting).
s
During November 1999, two drill holes (KDE99-01 fc 02) and a small geological compilation were completed by Pentland Firth Ventures Ltd. for Kinross Gold Corp., who had acquired the project. The project was subsequently dealt to Globex Mining Enterprises Inc..
The deposit is described in Ontario Geological Report 219, "Geology of the Timmins Area" by D.R. Pyke (1982) and in the Ontario Geological Survey Study 28, "Talc, Magnesite and Asbestos Deposits in the Timmins - Kirkland Lake Area, Districts of Timiskaming and Cochrane" by Kretschmar and Kretschmar (1986).
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 fe KDE99-02
Results
i) Drill core sampling work parameters
Personnel: K. Jason, 789 Ch. Jason, D'Alembert, QCType of Work: core cutting and sampling (generally on 3m lengths)Location of Work: Globex core shack,
146-14e rue, Rouyn-Noranda, QC. J9X 2J3Work Control: original metric drillers' blocksWork Dates: February 25-29, 2000Production Data:
Number of samples:DDHKDE99-01 25 samples DDK KDE99-02 24 samples
= 49 samples total Length of sampling
DDK KDE99-01 74.0m sampled length DDK KDE99-02 70.5m sampled length
= 144.5 metres total
Laboratory: XRAL Laboratories (SGS Canada Inc.)129 Ave. Marcel Baril Rouyn-Noranda, QC J9X 7B9
Elements Analysed and Technique: (see also Appendix G)
a) X-ray Fluroescence Spectrometry- pressed pellet with binder (XRF 100) 49 samples
SiO2, A12O3, CaO, MgO, Na2O, K2O, Fe2O3*, MnO, Cr2O3,P2O5, TiO2, LOI
b) X-ray Fluroescence Spectrometry- pressed pellet with no binder (XRF103) 4 samples
Rb, Sr, Y, Zr, Nb, Ba,c) CO2 Coulometery(CHM 114)
CO2d) Acid extraction and 32-element determination by ICP Spectroscopy
(ICP70)Be, Na, Mg, Al, P, K, Ca, Se, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Sr, Y, Zr, Mo, Ag, Cd, Sn, Sb, Ba, La, W, Pb, Bi (NB: no Hg received)
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 A KDE99-02
ii) Summary of sampling statistics
Complete sampling statistics are presented in Appendix C.
Examination of 5 lab duplicates vs original sample results shows generally good correlation with stated detection limits for all analytical techniques. Minor problems can be seen with ICP values for Cr, Mn and Ni as expressed by elevated 'average deviation from mean' (AVEDEV) values and by visual examination of average calculated differences between original and duplicate samples and expresses detection limits.
A similar pattern of elevated variance in Cr, Mn and Ni is found in the 49 submitted core samples, with slightly lower variance values also seen in ICP defined values for Co, Cu and Sr.
iii) Significant results
Individual analytical results are strikingly homogenous throughout the main magnesite mineralized horizon, (see major oxide profile plots vs mid-point distances down-hole in Appendix B). MgO wt07o is most abundant and typically falls in the 3507o to 40*^0 range. This is followed by the paired SiO2 and LOI (loss on ignition), which shows a distinct l: l inverse relationship (see also Fig. 14 in Appendix E). Both SiO2 and LOI generally fall in the 25 to 30 wf/4 range. An examination of LOI vs CO2 values indicates that, as can be expected, most of the LOI is made up of CO2. LOI values range from O to 3 07o larger than CO2, and on average are 1.3 wt07o larger. For all intents and purposes LOI and CO2 can be used interchangeably. Total iron, reported as Fe2O3* generally ranges around 5 vrt.%.
CaO and SiO2 elevate with a slight drop-off of MgO and LOI at the bottom end of DDH KDE99-02 when entering into the magnesite- serpentine alteration zone.
A Fe2O3 * vs (MgO+LOI) plot reveals a flat trend line at slightly greater than 507o total iron, with values scattering from 4 to 6.5 07o. The Fe2O3* vs (LOI/MgO) plot highlights the LOLMgO ratio scattering from 0.6 to 0.9. (see Appendix E).
The A12O3 vs TiO2 plot (see appendix F) shows a strong linear trend that passes through the origin, well off any normal crystallization trend line. This is indicative of extreme mass changes due to alteration of parent material.
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 fe KDE99-02
Discussion
Diamond drill hole KDE99-01 and KDE99-02 were put down as 80 metre west step-outs to the previously defined magnesite deposit that had been defined. The holes were completed as a stratigraphic fence collared 50 metres apart on Royal Oak grid section 7+OOmE. Yule (1999) noted that both holes collared and ended in magnesite mineralization. No core samples were taken until this current phase of work was completed and detailed in this report. Diamond drilling particulars are summarized in Table 2 (below):
Table 2: 1999 Kinross Drilling Program
Hole No.
KDE99-01 KDE99-02
Easting (m)
7+OOE 7+OOE
Northing (m)
1+60S 2+1 OS
Azm 1 Dip (deg)
180 1 -45 180 1 -45
EOH(m)
77.0 74.0
Both drill holes essentially traversed an horizon logged as "magnesite altered ultramafic" (geological lithology code 6ze). The final 9.0m of hole KDE99-02 were logged as "magnesite - serpentine altered ultramafic" (geological lithology code 6ye).
Discrimination plots of recalculated anhydrous oxide values indicate that the original protolith was a peridotite komatiite. This is in agreement with results returned by previous workers, (see Appendix D).
The A12O3 vs TiO2 plot as discussed above is indicative of extreme hydrothermal alteration.
Assay results show very good homogeneity throughout the main mineralized mass. Values are consistant with very good magnesite and talc development. Minor scattering of total iron values indicates the presence of multiple iron rich minerals. Visual logging indicates the presence of specular hematite, relic mafic minerals and possibly some solid solution in magnesite. Previous workers have also reported the presence of minor magnetite.
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 fe KDE99-02
Conclusions and Recommendations
The analysis of cut core samples from diamond drill holes KDE99-01 and KDE99-02 returned encouraging values of MgO wf/o. Maximum value was 40.407o, minimum value was 32.707o, with a modal MgO value of 39.007o +I- Q.4% at the 9507o confidence level.
Current sampling values need to be integrated and reviewed in light of historical results. To this end a full compilation of historical data is recommended.
In addition, a series of thin sections should be prepared and examined, and talc - magnesite mineralization values be computed.
Preliminary data review suggests that the current results are better than historically reported, indicating that magnesite grades are getting better to the west, away from the historically defined deposit core. To confirm this supposition, and to check if the same results can be obtained for the eastern strike extension, detailed geological mapping and check sampling of the project is recommended.
If this preliminary work is positive, further diamond drilling will be warrented.
R. V. Zalnieriunas P.Geo. \ Larder Lake, Ontario '' May 4, 2000
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 fe KDE99-02
References
Kretschmar and Kretschmar (1986)"Talc, Magnesite and Asbestos Deposits in the Timmins - Kirkland Lake Area, Districts of Timiskaming and Cochrane", Ontario Geological Survey Study 28
Pyke, D.R. (1982)"Geology of the Timmins Area", Ontario Geological Report 219
Yule, G. (1999)"Kinross Magnesite Drill Program Summary", Pentland Firth Ventures Ltd. report dated November 1999 in company files.
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 fe KDE99-02
Declaration of Qualifications
I, Rimant (Ray) Victor Zalnieriunas, of the town of Larder Lake, Ontario, Canada, do hereby declare that:
1. I am a professional geologist, and am currently self-employed in this position as sole proprietor ofR. V. Zalnieriunas Consulting, with offices at 14 MacDonald Street, Larder Lake, Ontario, POK l LO. E-Mail: [email protected]
2. I have obtained the degree of Bachelor of Science (Honours) granted by the Faculty of Arts andScience from Queen's University, Kingston, Ontario in 1978, and have been practising my profession since graduation.
3. I currently reside at 14 MacDonald Street in Larder Lake, Ontario, with a mailing address of P.O. Box 214, Larder Lake, Ontario, Canada, POK l LO.
4. I am a member of the Association of Geoscientists of Ontario, AGO No. 485 and have been accepted as a licenced Professional Geoscientist by the Association of Professional Engineers Si Geoscientists of Saskatchewan (APEGS), Member No. 10866.
5. I am a member and director of the Northern Prospectors Association (NPA).
6. I am a member of the of the Prospectors and Developers Association of Canada (PDAC) as well as a member of the Quebec Prospectors Association (APQ).
7. I have personal knowledge of the work referred to in this report, having visited the property and having read all relevant provincial files which relate to the property as available at the provincial mining ministry office(s).
8. I have not, directly or indirectly, any interest in the property, nor do I expect to receive any interest in the property.
9. I do not own, directly or indirectly any securities of or from Globex Mining Enterprises Inc. , for whom this report has been prepared.
10. I do hereby grant to Globex Mining Enterprises Inc. right to use this report, complete and unaltered, and unabridged parts thereof, for presentation to securities commissions, regulators and/or financial institutions and to whomever else he wishes to inform in the normal course of his business activities.
Signed: xR. V. /.aViieriunas P.Geo.
/^ H ; i i hDated this *l day of ' '*M_____.20 &-O at A^fs/ v AV A^lM 20 t3-O at /Uyf^v. 'L^
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 St. KDE99-02
Appendix A - Location Maps and Figures
Tisdale Twp.ASTRONOMIC
-P
l
D
to
Adams Twp.
PROPERTV OWNERSHIP
O PutCNT, suoTkCC t XIMINC tlO"i
Patent, swrwe RiO^s W*.*
O PATENT. KlHINO RIGHT! Dm.*
H LOSE. iu*r*cc i MIKINGB LC*SE. SUWACC MOMTS OMLl
y LC*SC. MIWIN& oidMis om*
KINROSS GOLD CORP.
DELDRD TOWNSHIP
DISPOSITIONOF
CROWN LANDS
ROYAL OA
""" ~ ~""-
PENTLAND FIRTH VENTURES LTD[MTM10
Drill Hole Location KDE99-1
Deloro UagnesHe Property - Deloro Twp Porcupine Utnlng Division
V \ HRI835 ^ A P10869--V*T- — —— ."~
i 83009 ~f| l l
p*i*so /li
PENTLAND FIRTH VENTURES LTD.Tnnra ONTMIO
Drill Hole Location KDE99-2
Deloro Uogneslle Property - Dthro Tvp Porcupfnt Mining Division
H&J803
850090P21710
850092
•"P25167
P18693
850093
Hole ttKDE99-1 -45" Dip 180* Azn
P850095
P21325
PENTLAND FIRTH VENTURES LTD
DELORO MAGNESITE PROPERTY
ROYAL OAK1999 DRILLING
Deloro Township
HRJP03
850090P21710
850092
P18693
850093
Hole #KDE99-a -45* Dip 180* Azn
X
P850095
PENTLAND FIRTH VENTURES LTD.Tinnins ONTARIO
DELORO MAGNESITE PROPERTY
ROYAL OAK1999 DRILLING
Deloro TownshipSCALE: 1/5000
0
-n
-K
-75
-100
S
~~"^\^^
\ ' ——— -
\
7'v74.00 m.
OB 99-02
t
g
-:
y
————————————————— B.k
1
jT
y77.00 l. De 99-01
........ . . , . ———————— S.
y
-
i
~ ^ -
— — — r
s
**
0
-a
-90
-73
-100
-12S
Geological Legend:
10 - MAFIC INTRUSIVES:
Dianase Dyke
9 - FELSIC INTRUSIVES:
|| j;; ;| HeaUy Altered Felsic Intrusive
[i j i jjjj Feldspar Pdrpnyry Intrusive
ULTRAMAFIC INTRUSIVES:
6ze Magnesite Altered U/M
^m[ 6ye Majnesite -Serpentine Altered U/H
|8c89 Peridotite - U/M
5 - SEDIMENTS:
Sediments
Z - MAFIC VOLCANICS:
lu/jKjh Moderiti-Strongly Altered Mafic Volcinlci
B^y Kemly-Moderitely Altered Malic Volcanics
^^ Mafic Volcanic Flows
1 - ULTRAMAFIC VOLCANICS:
^^m Variaoly Altered Ultranaflc Volcanics
Pentland Firth Ventures Ltd.
DELORO MAGNESITE PROPERTY
SECTION 700E
(Royal Oak Property)
DATE: 99/11/22 1 SCALE: 1/1000
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 & KDE99-02
Appendix B - Whole Rock Sampling Results and Major Oxide Plots(Addendum to Drill Logs KDE99-01 and KDE99-02)
L f -.-...A -ft-.:. "V l-'
m*.-t:*.**t tt.. ,. Lv
JdA
Property: EASTING: NORTHING: Elevation: Grid:Collar Azm.: Collar Dip: Local Ref: Hole Length: Print Date:
Royal Oak700.000-160.000
.000Royal Oak 180 -45 \Ref1 77.0
- Deloro Magnesite Deposit
- 1998 Field Grid
PENTLAND FIRTH VENTURES LTD.
DRILL HOLE RECORD
*** Dip Tests *** Depth Azm Dip
77 180 -46
metres21 Nov, 1999
Purpose: Drill on Section 80 m to the west of previous drilling on West Magnesite ZoneHole Condition: 3.0 m BW Casing left downholeComments: Collar is located 148 m West, and 167 m south of #1 post - P850094
Drill Hole: Township: Claim #: Date Started: Completed: Logged by: Date(s) Logged: Drilled by: Core Size: Company:
Page: 1 of
KDE99-01DELOROP-850094November 16, 1999November 17,1999Cord YuleNovember 17, 1999NOREX DRILLING LTD.BQPFVL
From (m)
To (m)
Rock Type
Geology Sample From (m)
To (m)
Lngt (m)
Qtz FeOx (50
Mafic (50
Talc (50
MgC03oo
.o
3.0
3.0
77.0
la**., fa* c
OVERBURDEN
MAGNESITE ALTERED ULTRAMAFIC (6ze).
r :
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Pagel of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze
6ze6ze6ze
DDH
KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01
KDE99-01KDE99-01KDE99-01
From (m)
358
11141720232629323538414447505356596265687174
33874
To (m)
58
1114172023262932353841444750535659626568717477
54177
Mid-Point
46.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.575.5
439.575.5
Length (m)
2333333333333333333333333
233
Sample IdentScheme CodeAnalysis UnitDetection Limit
12201122021220312204122051220612207122081220912210122111221212213122141221512216122171221812219122201222112222122231222412225
DUP-12201DUP-12213DUP-12225
Si02XRF100"h
0.01
29.0026.7028.4031.2026.6026.3027.3024.2026.7028.6028.3015.1027.5030.6027.5028.4029.3031.0028.4028.3027.7029.4029.2027.5028.10
28.9027.6028.10
AI203XRF100"A
0.01
0.440.430.420.420.400.410.370.420.540.460.530.620.470.490.320.310.320.900.490.561.060.830.850.620.45
0.440.470.45
CaOXRF10014
0.01
0.310.350.160.180.190.980.140.100.080.060.050.070.030.100.01
-0.010.030.10
-0.010.010.040.100.060.120.07
0.310.030.07
MgOXRF10014
0.01
37.9036.7035.5035.0036.1036.1036.5036.7038.6038.0038.1040.4039.0037.7038.7038.5039.0038.2038.6036.5035.4036.1037.7036.8038.60
38.0039.0038.60
Na20XRF10014
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01-0.01
K20XRF 100Ve
0.01
0.020.030.020.020.020.020.020.020.020.020.020.020.020.020.020.020.020.030.020.020.020.020.020.020.02
0.030.020.02
Fe2O3XRF10014
0.01
5.065.115.084.785.014.815.074.975.265.375.125.425.465.675.505.405.456.105.786.085.806.386.225.395.56
5.035.465.55
MnOXRF10014
0.01
0.100.110.090.100.090.110.090.100.110.100.100.130.100.090.100.090.130.110.100.100.120.100.100.110.11
0.100.100.11
TiO2XRF10014
0.001
0.0350.0350.0320.0330.0310.0300.0290.0340.0380.0360.0400.0400.0380.0320.0270.0260.0250.0450.0330.0390.0700.0550.0560.0430.034
0.0350.0380.034
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 3 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze
6ze6ze6ze
DDH
KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01
KDE99-01KDE99-01KDE99-01
From (m)
358
11141720232629323538414447505356596265687174
33874
To (m)
58
1114172023262932353841444750535659626568717477
54177
Mid-Point
46.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.575.5
439.575.5
Length (m)
2333333333333333333333333
233
Sample IdentScheme CodeAnalysis UnitDetection Limit
12201122021220312204122051220612207122081220912210122111221212213122141221512216122171221812219122201222112222122231222412225
DUP-12201DUP-12213DUP-12225
P2O5XRF100%
0.01
-0.010.010.010.010.010.010.010.010.010.010.01
-0.01-0.010.010.01
-0.010.010.01
-0.010.010.010.020.020.020.01
-0.01-0.010.01
Cr2O3XRF100"k
0.01
0.160.160.160.160.170.160.170.170.170.170.170.190.180.180.180.180.180.180.210.230.190.220.200.190.17
0.160.180.17
LOIXRF100%
0
27.6030.9030.7028.3031.9031.5030.7033.8029.0027.7027.6038.7027.7025.1028.2027.3026.1023.5026.6028.1029.9027.0026.1029.9027.50
27.6027.8027.50
Sum RbXRF100 XRF10314 ppm
0.01
100.60100.50100.50100.20100.40100.40100.30100.50100.50100.50100.00100.60100.4099.80
100.50100.10100.50100.10100.2099.90
100.20100.20100.40100.60100.50
100.60100.70100.60
2
-2
2
SrXRF103ppm
2
-2
-2
YXRF103ppm
2
-2
-2
ZrXRF103ppm
2
5
5
NbXRF103ppm
2
-2
-2
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 5 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6zeSze6ze6ze6ze6ze6ze6ze
6ze6ze6ze
DDH
KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01
KDE99-01KDE99-01KDE99-01
From (m)
358
11141720232629323538414447505356596265687174
33874
To (m)
58
1114172023262932353841444750535659626568717477
54177
Mid-Point
46.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.575.5
439.575.5
Length (m)
2333333333333333333333333
233
Sample (dentScheme CodeAnalysis UnitDetection Limit
12201122021220312204122051220612207122081220912210122111221212213122141221512216122171221812219122201222112222122231222412225
DUP-12201DUP-12213DUP-12225
BaXRF103ppm
20
21
; -20
BeICP70ppm
0.5
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5
-0.5-0.5-0.5
NaICP70'/,
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01-0.01
MgICP70K
0.01
11.913.612.811.913.413.1
1316.212.511.611.815.911.8
1011.711.610.810.412.912.712.512.112.712.411.2
11.911.611.3
AlICP70y.
0.01
0.090.080.040.040.040.050.040.060.040.040.040.040.030.030.020.020.020.070.050.050.090.080.080.060.03
0.090.030.03
PICP70%
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01-0.01
KICP70'/o
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01-0.01
CaICP70'k
0.01
0.190.2
0.090.090.110.560.090.070.050.040.040.040.030.060.010.010.020.060.020.020.030.070.050.070.05
0.190.030.05
SeICP70ppm
0.5
3.63.53.23.23.43.43.54.24.03.73.83.93.63.23.33.23.24.44.34.35.04.85.43.73.3
3.63.53.4
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 7 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze
6ze6ze6ze
DDH
KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01
KDE99-01KDE99-01KDE99-01
From (m)
358
11141720232629323538414447505356596265687174
33874
To (m)
58
1114172023262932353841444750535659626568717477
54177
Mid-Point
46.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.575.5
439.575.5
Length (m)
2333333333333333333333333
233
Sample IdentScheme CodeAnalysis UnitDetection Limit
12201122021220312204122051220612207122081220912210122111221212213122141221512216122171221812219122201222112222122231222412225
DUP-12201DUP-12213DUP-12225
TiICP70"/o
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01-0.01
VICP70ppm
2
23323434
-2-2-24
-2-2-2-2-242244332
22
-2
CrICP70ppm
1
250272184166200167185259148154130177126102104105
88133190214212223212190111
258132118
MnICP70ppm
2
590594494547450608506610606558560618570471512511704589654605622573641624587
593565598
FeICP70y.
0.01
1.051.461.551.161.792.331.732.261.170.980.792.010.750.660.760.690.540.730.911.371.921.521.432.001.36
1.060.771.39
CoICP70ppm
1
34434238463943573233335733293433272939414042393931
313333
NiICP70ppm
1
303566556415582363417729268287283843301226290279207223311351500327289361241
313301249
CuICP70ppm
0.5
2.07.68.64.4
89.117.03.02.21.1
19.82.62.61.40.91.81.60.51.3j0.7
-0.51.51.80.50.61.0
1.51.50.5
ZnICP70ppm
0.5
13.916.715.312.515.113.413.818.211.516.512.121.611.18.3
10.39.48.9
10.811.612.015.812.711.512.610.3
13.110.810.3
(A
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 9 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze
6ze6ze6ze
DDH
KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01
KDE99-01KDE99-01KDE99-01
From (m)
358
11141720232629323538414447505356596265687174
33874
To (m)
58
1114172023262932353841444750535659626568717477
54177
Mid-Point
46.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.575.5
439.575.5
Length (m)
2333333333333333333333333
233
Sample IdentScheme CodeAnalysis UnitDetection Limit
12201122021220312204122051220612207122081220912210122111221212213122141221512216122171221812219122201222112222122231222412225
DUP-12201DUP-12213DUP-12225
AsICP70ppm
3
-3-3-3-3-3-3-3-3-3-37
-34
-3654
-39
-3-3-3-3-3-3
-33
-3
SrICP70ppm
0.5
2.52.51.71.52.22.51.61.00.70.80.80.80.71.40.5
-0.50.81.6
-0.5-0.51.51.31.11.40.8
2.50.70.9
YICP70ppm
0.5
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.50.7
-0.5-0.5-0.50.8
-0.5-0.50.6
-0.5-0.5-0.5
ZrICP70ppm
0.5
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.50.60.8
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5
-0.5-0.5-0.5
MoICP70ppm
1
-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1
-1-1-1
AgICP70ppm
0.2
0.4-0.20.30.40.50.30.50.30.30.4
-0.20.30.3
-0.2-0.20.30.31.30.40.2
-0.21.2
-0.2-0.21.0
0.30.70.8
CdICP70ppm
1
-1-1-1-1-1-1-1-1-1-1-1-1-1-1
1-1-1-1-1-1-1-1-1-1-1
-1-1-1
SnICP70ppm
10
-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10
-10-10-10
SbICP70ppm
5
-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5
-5-5-5
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 11 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze
6ze6ze6ze
DDH
KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01KDE99-01
KDE99-01KDE99-01KDE99-01
From (m)
35811141720232629323538414447505356596265687174
33874
To (m)
58
. n
14172023262932353841444750535659626568717477
54177
Mid-Point
46.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.575.5
439.575.5
Length (m)
2333333333333333333333333
233
Sample IdentScheme CodeAnalysis UnitDetection Limit
122011220212203122041220S1220612207122081220912210122111221212213122141221512216122171221812219122201222112222122231222412225
DUP-12201DUP-12213DUP-12225
BaICP70ppm
1
-1-1-1-1-1-1-1
1-1-1-1-1-1-1-1-1-1-1-1-1-1----
---
LaICP70ppm
0.5
-0.50.71.10.71.62.31.21.80.80.8
-0.52.0
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.51.8
-0.5-0.51.9
-0.5
-0.5-0.50.9
WICP70ppm
10
-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10
-10-10-10
PbICP70ppm
2
13-2-2-2-2-2-2-2-22
-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2
12-2-2
BiICP70ppm
5
-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5
-5-5-5
CO2CHM114K
0.01
27.229.229.027.230.430.229.632.728.825.426.637.827.825.428.026.226.022.525.926.229.825.824.728.224.4
26.426.725.3
sJ
(1)DDHKDE99-01
45.0
40.0 -
35.0 -
30.0
25.0
20.0
15.0
\ l
i
•MgO
-•m- LOI
- -A- - SiO2
•Fe2O3
-AI2O3
•CaO
10.0
5.0 3 -X--x-
0.0 f f y l
Distance Downhole (m)
00
(2) DDH KDE99-01
0.25
0.20
0.15
as
0.10
0.05
0.00
-TJO2
-K2O
-Cr203
P2O5
-Na20
Distance Downhole (m)
L
Property: EASTING: NORTHING: Elevation: Grid:Collar Azm.: Collar Dip: Local Ref: Hole Length: Print Date:
Royal Oak 700.000-210.000
.000Royal Oak 180-45 \Ref1 74.0
- Deloro Magnesite Deposit
- 1998 Field Grid
PENTLAND FIRTH VENTURES LTD.
DRILL HOLE RECORD
*** Dip Tests *** Depth Azm Dip
74 180 -44
Page: 1 of
metres21 Nov, 1999
Purpose: Drill on Section 80 m to the west of previous drilling on West Magnesite Zone,Hole Condition: 3.0 m BU Casing left downholeComments: Collar is located 148 m West, and 217 m south of #1 post - P850094
Drill Hole: Township: Claim #: Date Started: Completed: Logged by: Date(s) Logged: Drilled by: Core Size: Company:
and 50 m south of KDE99-01
KDE99-02 DELORO P-850094 November 17, 1999November 17,1999 Cord Yule November 18, 1999 NOREX DRILLING LTD. BQ PFVL
From (m)
To (m)
Rock ype
Geology Sample From (m)
To (m)
Lngt (m)
Qtz (50
FeOxm
Maficm
Talc (30
MgC03 (30
3.2
65.0
3.2
65.0
S*lC& i u**t
74.0
OVERBURDEN
MAGNESITE ALTERED ULTRAMAFIC (6ze).
MAGNESITE - SERPENTINE ALTERED ULTRAMAFIC (6ye).
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 2 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ye6ye6ye
6ze6ye
DDK
KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02
KDE99-02KDE99-02
From (m)
3.558
111417202326293235384144475053565962656871
3571
To (m)
58
11141720232629323538414447505356596265687174
3874
Mid-Point
4.256.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.5
36.572.5
Length (m)
1.533333333333333333333333
33
Sample IdentScheme CodeAnalysis UnitDetection Limit
122261222712228122291223012231122321223312234122351223612237122381223912240122411224212243122441224512246122471224812249
DUP-12237DUP-12249
SiO2XRF100K
0.01
28.2028.5029.4028.0030.7030.1025.1028.1028.8028.6029.5028.1027.1027.5027.7027.2029.8027.4028.1028.0027.1028.6032.8032.70
28.1032.80
AI2O3XRF100"/o
0.01
0.220.230.330.290.471.370.560.340.230.300.470.280.260.270.260.210.210.150.260.200.160.193.960.41
0.280.41
CaOXRF100"A
0.01
0.100.040.080.090.140.170.050.040.02
-0.010.020.020.110.240.290.100.770.330.230.140.380.622.435.62
0.025.63
MgOXRF100%
0.01
37.2039.0039.0037.9036.3037.6038.4038.4039.3039.0039.1039.7038.8038.0038.8039.0037.1038.8038.6039.2038.4038.6033.3032.70
39.6032.60
Na2OXRF100%
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01
K20XRF100K
0.01
0.020.020.020.020.030.020.020.020.020.020.020.010.020.020.030.020.020.010.020.020.030.020.030.02
0.010.02
Fe2O3XRF100"k
0.01
4.585.165.114.565.166.004.865.144.885.345.285.094.654.504.645.414.734.654.574.384.464.525.334.40
5.114.37
MnOXRF100"h
0.01
0.100.090.080.120.090.100.140.090.100.100.080.100.110.100.080.090.090.100.080.100.090.090.080.12
0.100.12
TiO2XRF100V,
0.001
0.0220.0250.0300.0250.0360.0780.0410.0270.0190.0260.0420.0220.0220.0300.0210.0180.0170.0150.0220.0170.0140.0200.2360.030
0.0220.029
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 4 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6yeBye6ye
6ze6ye
DDK
KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02
KDE99-02KDE99-02
From (m)
3.558
111417202326293235 j384144475053565962656871
3571
To (m)
5811141720232629323538414447505356596265687174
3874
Mid-Point
4.256.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.5
36.572.5
Length (m)
1.533333333333333333333333
33
Sample IdentScheme CodeAnalysis UnitDetection Limit
122261222712228122291223012231122321223312234122351223612237122381223912240122411224212243122441224512246122471224812249
DUP-12237DUP-12249
P2O5XRF100•A
0.01
0.010.010.020.01
-0.010.010.01
-0.01-0.010.010.020.010.010.010.01
-0.010.01
-0.01-0.01-0.010.01
-0.010.110.01
0.010.01
Cr2O3XRF100%
0.01
0.150.150.150.150.160.200.150.160.160.160.160.160.140.150.140.150.140.140.140.140.150.140.120.14
0.160.14
LOIXRF100tt
0
29.7027.2026.3029.3027.1024.8031.0027.8026.6026.6025.9027.0029.3029.7028.4028.4027.6029.0028.1027.8029.0027.8021.6024.50
27.0024.30
Sum RbXRF100 XRF103tt ppm
0.01
100.20100.30100.50100.40100.20100.30100.30100.10100.00100.10100.50100.50100.50100.40100.30100.50100.30100.50100.1099.9099.70
100.6099.90
100.50
100.30100.30
2
2
3
2
3
SrXRF103PPm
2
-2
3
76
76
YXRF103ppm
2
-2
-2
-2
-2
ZrXRF103ppm
2
3
-2
6
6
NbXRF103ppm
2
-2
-2
-2
-2
N
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 6 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ye6ye6ye
6ze6ye
DDH
KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02
KDE99-02KDE99-02
From (m)
3.558
111417202326293235384144475053565962656871
3571
To (m)
58
11141720232629323538414447505356596265687174
3874
Mid-Point
4.256.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.5
36.5 .72.5
Length (m)
1.533333333333333333333333
33
Sample IdentScheme CodeAnalysis UnitDetection Limit
122261222712228122291223012231122321223312234122351223612237122381223912240122411224212243122441224512246122471224812249
DUP-12237DUP-12249
BaXRF103ppm
20
-20
-20
-20
-20
BeICP70ppm
0.5
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5
-0.5-0.5
NaICP70"/o
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.010.02
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01
MgICP70"h
0.01
1311.911.214.312.411.912.911.711.111.110.611.213.712.511.811.612.5
1312.111.611.510.77.347.68
11.17.65
AlICP70K
0.01
0.020.020.020.030.040.040.040.030.020.020.040.020.020.020.020.020.020.010.020.010.010.010.4
0.04
0.020.04
PICP70"k
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.010.03
-0.01
-0.01-0.01
KICP70"k
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01
CaICP70"k
0.01
0.070.030.050.07
0.10.090.040.040.020.010.020.020.080.150.180.06
- 0.490.220.150.090.220.351.413.51
0.023.49
SeICP70ppm
0.5
3.03.23.33.03.63.63.43.02.93.03.02.82.82.92.72.72.82.92.82.82.62.52.72.9
2.82.8
(75i
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 8 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ye6ye6ye
6ze6ye
DDH
KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02
KDE99-02KDE99-02
From (m)
3.558
111417202326293235384144475053565962656871
3571
To (m)
5811141720232629323538414447505356596265687174
3874
Mid-Point
4.256.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.5
36.572.5
Length (m)
1.533333333333333333333333
33
Sample IdentScheme CodeAnalysis UnitDetection Limit
122261222712228122291223012231122321223312234122351223612237122381223912240122411224212243122441224512246122471224812249
DUP-12237DUP-12249
TiICP70'k
0.01
-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01-0.01
-0.01-0.01
VICP70ppm
2
-2-2-223223
-2-2-2-2-232
-2333
-22262
-22
CrICP70ppm
1
1108789
138148142128101
71879172
10512210893
12111111183978492
113
76115
MnICP70ppm
2
604508441730559538743510566539464546651554463468568594470538487467400703
543696
FeICP70V,
0.01
1.070.650.461.391.331.291.451.140.600.740.660.641.761.662.001.732.652.572.021.372.232.171.861.87
0.651.84
CoICP70ppm
1
363228393635343529272630383631293035322834392931
2931
NiICP70ppm
1
371254240413315304381311221207210211306360244233292252247200249292279304
210314
CuICP70ppm
0.5
1.71.41.41.21.71.00.71.7
-0.50.5
-0.50.91.12.00.95.3
15.31.01.70.76.36.59.12.7
0.62.5
ZnICP70ppm
0.5
9.77.57.1
10.611.511.311.110.68.26.76.67.19.29.98.58.79.39.48.77.68.47.1
10.96.3
7.26.4
l
uE
Printed: 5/03/00 . Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 10 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6yeBye6ye
6ze6ye
DDH
KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02
KDE99-02KDE99-02
From (m)
3.558
111417202326293235384144475053565962656871
3571
To (m)
58
11141720232629323538414447505356596265687174
3874
Mid-Point
4.256.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.5
36.572.5
Length (m)
1.533333333333333333333333
33
Sample IdentScheme CodeAnalysis UnitDetection Limit
122261222712228122291223012231122321223312234122351223612237122381223912240122411224212243122441224512246122471224812249
DUP-12237DUP-12249
AsICP70ppm
3
-3-3-3-3-3-3-3-3-3-3-3-3-3-3-3-3-3-3-3-3-3-31133
-334
SrICP70ppm
0.5
1.40.60.80.61.21.30.80.91.30.60.91.81.93.23.03.6
14.87.84.62.64.76.7
37.474.6
1.774.1
YICP70ppm
0.5
-0.5-0.5-0.5-0.50.6
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.50.5
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.50.8
-0.5
-0.5-0.5
ZrICP70ppm
0.5
-0.5-0.5-0.5-0.5-0.5-0.50.9
-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.5-0.51.2
-0.51.31.5
-0.51.0
MoICP70ppm
1
-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1
-1-1
AgICP70ppm
0.2
0.30.80.30.40.9
-0.20.31.1
-0.20.30.20.7
-0.21.10.2
-0.20.4
-0.20.90.40.40.40.60.4
0.50.4
CdICP70ppm
1
-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1
-1-1
SnICP70ppm
10
-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10
-10-10
SbICP70ppm
5
-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5
-5-5
Printed: 5/03/00 Core Sampling Results Timmins Magnesite Project
Globex Mining Enterprises Inc.
Page 12 of 12
RX CODE
6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ze6ye6ye6ye
6zeBye
DDH
KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02KDE99-02
KDE99-02KDE99-02
From (m)
3.558
111417202326293235384144475053565962656871
3571
To (m)
5811141720232629323538414447505356596265687174
3874
Mid-Point
4.256.59.512.515.518.521.524.527.530.533.536.539.542.545.548.551.554.557.560.563.566.569.572.5
36.572.5
Length (m)
1.533333333333333333333333
33
Sample (dentScheme CodeAnalysis UnitDetection Limit
122261222712228122291223012231122321223312234122351223612237122381223912240122411224212243122441224512246122471224812249
DUP-12237DUP-12249
BaICP70ppm
1
-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-1-167
-13
-12
LaICP70ppm
0.5
-0.5-0.5-0.5-0.5-0.50.91.60.7
-0.5-0.5-0.5-0.5-0.51.31.71.11.32.81.00.83.12.26.12.9
-0.52.4
WICP70ppm
10
-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10-10
-10-10
PbICP70PPm
2
-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2-2
-2-2
BiICP70ppm
5
-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5-5
-5-5
C02CHM114V,
0.01
28.624.525.028.425.824.127.926.924.624.224.324.428.528.426.328.226.728.326.126.728.026.519.623.9
23.523.5
l"^
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 A KDE99-02
Appendix C - Sample Statistics
Globex Mining Entrerprises Inc. Timmins Magnesite Project Core Sampling Statistics
Page 1 of 4
Sample IdentScheme CodeAnalysis UnitDetection LimitLaboratory Duplicate StatisticsLab.DupAVEDEVLab.DupSTDEVPLab.DupVARPVariance 12201Variance 12213Variance 12225Variance 12237Variance 12249Dif: DUP-ORIG 12201Dif: DUP-ORIG 12213Dif: DUP-ORIG 12225Dif: DUP-ORIG 12237Dif: DUP-ORIG 12249Avg. Diff. (5 samples)
Sample StatisticsCountMaximumMinimumMedianModeAverageAvg. Dev from mean+/-950/0 ConfidenceSkewKurtosisStd. DeviationPop. Std. DeviationVariancePop. Variance
SiO2XRF10007o
0.01
1 .4641.884383
3:55096.13478
2.2373412.5705293.009044
5.756-0.100.100.000.000.100.02
4932.815.128.227.5
28.130611.4095790.700014-2.8032815.15371
2.50012.4744586.250502
6.12294
AI2O3XRF100"/o
0.01
0.0520.067823
0.00460.303731
0.389220.5173930.806344
0.00460.000.000.000.000.000.00
493.960.150.410.42
0.5053060.2586260.1558875.260871
32.00230.556751
0.551040.3099710.303645
CaOXRF100Vo
0.01
1.76562.20954
4.8820690.7267480.9171031.2430611.9370498.129307
0.000.000.000.000.010.00
495.62
-0.010.10.1
0.3130610.3663470.241167
5.3974931.704410.8613290-.8524950.7418880.726748
MgOXRF100"/o
0.01
1.9682.521527
6.35812.3965062.3073012.6131223.939853
10.3590.100.000.00
-0.10-0.10-0.02
4940.432.738.2
3937.726531.2164930.437805-1.261661.817197
1.563621.5475822.444906
2.39501
Na2OXRF100"/o
0.01
1 73E-181.86E-103.47E-20
000
1.36E-200
0.000.000.000.000.000.00
49-0.01-0.01-0.01-0.01-0.01
5.2E-18#NUM!1.03186
-2.08696000
-1.2E-19
K20XRF100"/o
0.01
0.00360.0053850.0000291.73E-05
2E-052.47E-054.34E-05
4E-050.010.000.000.000.000.00
490.030.010.020.02
0.0208160.0022490.00112
0.7115973.27608
0.0039980.003957
1.6E-051.57E-05
Fe2O3XRF100'/o
0.01
0.3190.4125640.1702090.2450740.3045060.1817660.1617150.256587
-0.030.00
-0.010.02
-0.03-0.01
496.384.385.125.11
5.1683670.3944610.1399380.471426-0.248270.4997890.4946630.2497890.244691
MnOXRF100"/o
0.01
0.00720.008
6.4E-050.0001730.0001840.0001950.0001249.67E-05
0.000.000.000.000.000.00
490.140.08
0.10.1
0.1002040.0092790.0037260.8463971.0006150.0133060.0131690.0001770.000173
TiO2XRF100"/o
0.001
0.004760.005569
3.1E-050.0009880.001269
0.00170.0027073.19E-05
0.000.000.000.000.000.00
490.2360.0140.031
0.030.0365510.0142570.0088945.40609433.631490.031765
0.031440.0010090.000988
P205XRF100"/o
0.01
0.00960.0097980.0000960.0003220.0004050.0005170.0007940.000107
0.000.000.000.000.000.00
490.11
-0.010.010.01
0.0077550.0094210.0050243.78123422.0167
0.0179430.0177590.0003220:000315
Cr2O3XRF100y0
0.01
0.01040.01326"60.0001760.000495
0.000620.0002360.0002030.000257
0.000.000.000.000.000.00
490.230.120.160.16
0.1653060.017493
0.006290.8031480.7616670.0224630.0222330.0005050.000494
LOIXRF100Vo
0.981.251599
1.56657.0054083.4565183.4244843.696176
2.5950.000.100.000.00
-0.20-0.02
4938.721.627.827.6
28.202041.83915
0.7483741.0721494.4666372.6728182.6454037.1439546.998159
SumXRF100"/o
0.01
0.10.126491
0.0160.0537310.0604180.0617460.082647
0.0280.000.300.10
-0.20-0.200.00
49100.699.7
100.4100.5
100.30610.1896710.064512-0.79165-0.172510.2304060.2280420.0530870.052003
NOTE: a negative analysis represents values found less than laboratory detection limits,
ie -2 = *2 etc
Ol
Globex Mining Enterprises Inc. Timmins Magnesite Project Core Sampling Statistics
Page 2 of 4
Sample IdentScheme CodeAnalysis UnitDetection LimitLaboratory Duplicate StatisticsLab.DupAVEDEVLab.Dup STDEVPLab.Dup VARPVariance 12201Variance 12213Variance 12225Variance 12237Variance 12249Dif: DUP-ORIG 12201Dif: DUP-ORIG 12213Dif: DUP-ORIG 12225Dif: DUP-ORIG 12237Dif: DUP-ORIG 12249Avg. Diff. (5 samples)
Sample StatisticsCountMaximumMinimumMedianModeAverageAvg. Dev from mean•*7-950Xo ConfidenceSkewKurtosisStd. DeviationPop. Std. DeviationVariancePop. Variance
BeICP70ppm
0.5
00000000
0.000.000.000.000.000.00
49-0.5-0.5-0.5-0.5-0.5
0#NUM!SDIV/0!#DIV70!
0000
NaICP70"/o
0.01
0.00540.009
0.0000811.8E-05
2.31 E-053.21 E-055.29E-05
00.000.000.00
-0.030.00
-0.01
490.02
-0.01-0.01-0.01
-0.009390.00120.0012
749
0.0042860.0042421.84E-051.8E-05
MgICP70"/o
0.01
.1.22721.5598722.4332012.2671191.7549512.093865
2.639053.94455
0.00-0.200.10
-0.10-0.03-0.05
4916.27.3411.911.9
12.037141.0345190.42592
-0.317623.2264111.5211731.5055712.3139672.266743
AlICP70"/o
0.01
0.01920.0248190.0006160.0031150.0039230.0052220.0086490.000617
0.000.000.000.000.000.00
490.4
0.010.040.02
0.0442860.0256560.0156835.55792335.261090.0560130.0554390.0031380.003073
PICP70"/o
0.01
1.73E-181.86E-103.47E-20
3.2E-054.1 E-05
5. 71 E-059.41 E-05
00.000.000.000.000.000.00
490.03
-0.01-0.01-0.01
-0.009180.001599
0.00167
490.0057140.0056563.27E-05
3.2E-05
KICP70Vo
0.01
1.73E-181.86E-103.47E-20
000
1.36E-200
0.000.000.000.000.000.00
49-0.01-0.01-0.01-0.01-0.01
5.2E-18#NUM!1.03186
-2.08696000
-1.2E-19
CaICP70Vo
0.01
1.09681.3723831.8834360.2756130.3484530.4730970.739814
3.136550.000.000.000.00
-0.020.00
493.510.010.070.02
0.1946940.2205080.1485175.55835233.496260.5304290.5249880.2813550.275613
SeICP70ppm
0.5
0.3240.343657
0.11810.4027920.4709040.1026850.0955880.138667
0.00-0.100.100.00
-0.10-0.02
495.42.53.23.2
3.3877550.4880470.1793421.2237291.4157690.6405180.6339490.4102640.401891
TiICP70"/o
0.01
1.73E-181.86E-103.47E-20
000
1.36E-200
0.000.000.000.000.000.00
49-0.01-0.01-0.01-0.01-0.01
5.2E-18#NUM!1.03186
-2.08696000
-1.2E-19
VICP70ppm
2
1.921.959592
3.846.1485716.0728745.8042336.3088244.266667
0.004.00
-4.000.000.000.00
496
-22
-21.1020412.27905
0.700557-0.25381-1.492862.50204
2.4763776.2602046.132445
CrICP70ppm
1
46.7661.31794
3759.892947.8382165.3541235.5911719.0153958.267
8.006.007.004.002.005.40
49272
71122111
138.89843.0179114.601740.888404-0.1004752.1501251.615232719.6352664.132
MnICP70ppm
2
40.1653.318762842.89
5783.4436619.6057094.3655833.6184550.267
3.00-5.0011.00-3.00-7.00-0.20
49743400560594
561.530660.2965421.477070.280987
-0.088576.7053675.918625883.7135763.637
FeICP70"/o
0.01
0.38160.4390170.1927360.3398250.3634020.3717520.3815680.275507
0.010.020.030.01
-0.030.01
492.650.461.371.73
1.3924490.4874970.1643760.232134-0.907210.5870670.5810460.3446480.337614
NOTE: a negative analysis represents values found less than laboratory detection limits,
ie -2 s f-2 etc r0
Globex Mining Entrerprises Inc. Timmins Magnesite Project Core Sampling Statistics
Page 3 of 4
Sample IdentScheme CodeAnalysis UnitDetection LimitLaboratory Duplicate StatisticsLab.DupAVEDEVLab.DupSTDEVPLab.Dup VARPVariance 12201Variance 12213Variance 12225Variance 12237Variance 12249Dif: DUP-ORIG 12201Dif: DUP-ORIG 1221 3Dif: DUP-ORIG 12225Dif: DUP-ORIG 12237Dif: DUP-ORIG 12249Avg. Diff. (5 samples)
Sample StatisticsCountMaximumMinimumMedianModeAverageAvg. Dev from mean*7-95"Xo ConfidenceSkewKurtosisStd. DeviationPop. Std. DeviationVariancePop. Variance
CoICP70ppm
1
1.321.496663
2.2443.6249
19.0607312.8399510.566182.266667
-3.000.002.00
-1.000.00
-0.40
4957263439
35.346944.9820911.8603931.3945012.8650496.6443936.57624444.1479643.24698
NiICP70ppm
1
37.5640.11745
1609.4117202.134117.1963122.7721877.2791820.567
10.000.008.00
-1.0010.005.40
49843200292279
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CuICP70ppm
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4.3245883.1032142.9334567.805667
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NOTE: a negative analysis represents values found less than laboratory detection limits,
le -2 = ^ etc
Globex Mining Enterprises Inc. Timmins Magnesite Project Core Sampling Statistics
Page 4 of 4
Sample IdentScheme CodeAnalysis UnitDetection LimitLaboratory Duplicate StatisticsLab.DupAVEDEVLab.Dup STDEVPLab.Dup VARPVariance 12201Variance 12213Variance 12225Variance 12237Variance 12249Dif: DUP-ORIG 12201Dif: DUP-ORIG 12213Dif: DUP-ORIG 12225Dif: DUP-ORIG 12237Dif: DUP-ORIG 12249Avg. Diff. (5 samples)
Sample StatisticsCountMaximumMinimumMedianModeAverageAvg. Dev from mean+/-95% ConfidenceSkewKurtosisStd. DeviationPop. Std. DeviationVariancePop. Variance
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NOTE: a negative analysis represents values found less than laboratory detection limits,
ie -2 = ^ etc
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 A KDE99-02
Appendix D - Discrimination Plots
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 fe KDE99-02
FeO* * 7702
Cation KJensen 1976 (fig 1)
\
AI203 MgO
Figure 5: Jensen Cation Plot
P-z.
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 ife KDE99-02
AFM Diagram AFM
f is G.
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 fe KDE99-02
FeO'
Irvine t. Bangar 1971 (fig 2)
MgO
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 Se. KDE99-02
Le MaHre 1919 (fig B.12)4
3
S 2 K
O* 2
f
0
/Wd/re
Ml
basanite
tephrite
plcrobasalt
rOlSKp/cr/l
basa/r
e
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i
basatoc
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Mi/OS
andesite
boninite
% A 7•/O2<0.5%
35 45 55 65S/02
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 k KDE99-02
Appendix E - Miscellaneous Plots
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 fe KDE99-02
MgO
LOI
Fe2O3"
MgO
LOIf I 0 lo
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Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 & KDE99-02
E--Z.
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Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 A KDE99-02
50
45
40
35
30
i 25
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16
10
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-
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S/O2 (Wf54J
Figure 14: LOI vs SiO2
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 & KDE99-02
Appendix F - Major Oxides vs TiO2 (wf/o)
F-l
Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 & KDE99-02
77O2
^ 4f
O 3 3
.1 .2 Ti02 (wt'A)
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Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 fe KDE99-02
10
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so
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Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 Si. KDE99-02
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Timmins Magnesite Deposit: Analytic Results DDK's KDE99-01 A KDE99-02
Appendix G - Assay Certificates and Laboratory Procedures
XRAL Les Laboratoires XRAL LaboratoriesUne Division de l A Division of SGS Canada Inc.
129 Ave. Marcel Baril Rouyn-Noranda, Quebec Canada J9X7B9 Telephone (819) 764-9108 Fax (819) 764-4673
your ref: 0111-16^59127/^17930
CERTMCAT D'ANALYSE/ASSAY CERTIFICATE April 18, 2000
GLOBEX MINING ENTERPRISES INC.146.14EMERUEROUYN-NORANDAJ9X2G3ATTN: JACK STOCK
Date Soumis/Submitted: March 27,2000
No. of samples: 49 No. of pages: 7
ELEMENTS
Whole Rock Whole Rock
METHOD
XRF-100 XRF-103
DETECTION UMTT
Certifid par/Certified by:
Member of the SGS Group (SocieW Generate de Surveillance)
XRAL XRAL LaboratoriesA Division ofSGS Canada inc.
Work Order; 059127 Date; 18/04/00 FINAL Page l at 6
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Member offcsjo
CD
XRAL LES LABORATOIRES XRAL LABORATORIESUNE DIVISION DE /A DIVISION OF SGS CANADA INC.
129 AVE. MARCEL BARIL - ROUYN-NORANDA - QUEBEC J9X 7B9TEL: (819) 764-9108 FAX: (819) 764-4673
your K(: ourref: 59127/R17930A
CERTIHCAT D'ANALYSE/ASSAY CERTIFICATE May 03,2000
GLOBEX MINING ENTERPRISES INC. 1*5,14EMERUE ROUYN-NORANDA, QC J9X2G3
ATTENTION: JACK STOCK
Date Soumis/SuDfliilted: March 27, 2000
No. of samples: 49 No. of pages; M
ELEMENTS
Whole Rock analysis Whole Rock analysis 31 elements scan C02
METHOD
XRF-100 XRF-103 ICP-70 CHM-114
DETECTION UMTT
Certttle par/Certified by:
J J. Landers G^rant/Manager
Membre du Groupe SGS (Soci*t6 G6n6raic de Surveillance)
XRAL XRAL LaboratoriesA Division of SOS Canada Inc.
Work Order: 059127 Date: 02/05/00 FINAL Page l ofIDT\3 O CD O
Element. Methtnl Del,Urn.Units.
12201 L2202122031220412205
1220612207122081220912210
1221112212122131221412215
1221611217122181221912220
1222112222122231222412225
1222612227122281222912230
SiOlXHF10Q
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29.026,728*431.226.6
26.327.324.226.7BJL28.315. L27.530.627.5
28.429.331-028.4n.a.
27.729.429.227.528.1
28.228.529.428.0n.a.
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0,440.430.420.420.40
0.410.370.420.54n.a.
0.530,620.470.490.320.3 L0.320.900.49a. a.
1.060.830.850.620.45
0.220.230.330.29n.a.
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0.040.100.060.120.07
0.100.040.080.09n.a.
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36.136.536.738.6n.a.
38.140.439.037.738.7
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4.815.074.975.26n.a,
5.125.425.465.675.50
5.405.456.105.78n.a.
5.806.386.225-395-55
4.585.165.114.56U.S.
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29.927.026.129-927,5
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XRAL XRAL LaboratoriesA Division of SGS Canada Inc.
Work Order: 059127 Date: 02/05/00 FINAL 2 of 10
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Element. Method. Det.Llm, Units.
12231 J1232122331223412235
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27.229.827.428.128.0
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0.470.280.260.27n.a.
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OJ
KRALWork Order; 059127
Element. Method. De*.Luiu Units,
12201 (2202122031220412205
1220612207122081220912210
mn12212 J22131221412215
122161221712218 J2219 j 2220
1222112222122231222412225
1222512227122281222912230
\L Laboratories vision ol SOS Canada Inc.
Date: 02/05/00
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XRAL XRAL LaboratoriesA Division of SOS Canada Inc.
Work Order: 059127 Date: 02/05/00 FEVAL Pigs 4 oflO
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Element. Method. DetXim. Uoils.
1223112232122331223412235
1223612237122381223912240
1224112242122431224412245
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Worts Order: 059127 Date: 02/05/00 FINAL Pase 5 oflO
Element. Method. Det.Lim.Units.
1220112202122031220412205
12206 J2207122081220912210
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2ppm
n.a.n.t.n.a.n.a.n.a.
n.a.n.a.x .a.n.a.
5
n,a.n.a.n.a.n.a.n.a.
B. a.n.a.n.a.n.a.
5
n.a.n.a.n.e.n.a.n.a.
n.a.n.a.D.a.n.a.
3
NbXRFI03
2ppm
n.a.n.a.n.a.n.a.n.a.
n.a.n.a.n.a.n.a.<2
n.a.n.a.n.a.n.a.n-a.
nJi.n.a.n-a.n.a.C2
p.a.n.*.a.a.n,a.n-a.
(La.n.a.n.a.n.a.c2
BaXRF103
20ppm
n.a.n.a.n.a.n.a.n.a.
n.a.n.a.n.a.n-a
21
n.a.n.a.n.a.n.a.n.a.
n.a.n.a.n.a.n.a.C 20
n.a.B.a.n.i.n.a.n.a.
n.a.n.fl.n.a.n.a.C20
BeICP70
0.5ppm
CO.5CO.5CCX5CO.5CO J
CO.5CO.5CO.5CO.5CO.5
CO.5c 0.5CO.5CO.5CO.5
c 0.5CO.5CO.5CO.5C 0.5
cO.5CO.5CO.5CO.5CO.5
c 0.5C 0,5C 0.5CO.5CO.5
NaICP70
0.01*
CO.01CO.01CO.01CO.OlcO.01
tO.OlCO.OlcO.01CO.01CO.Ol
CO.OlCO.OlCO.OlCO 01CO.Ol
CO.01CO.01CO.01CO.OlCO.Ol
CO.01CO.01CO.01CO.01CO.Ol
CO.01C0.01CO.01COOlCO.01
MjrICP70
0.0154
11.913.612.811.913.4
13.113.016.212.511.5
11.815.911.310.011.7
LI. 610.8L0.412.912.7
12.512.112.712.411.2
13.011.911.214.312.4
A!ICP70
0.01ft
0.090.030.040.040.04
0.050.040.060.040.04
0.040.040.030.030.02
0.020.020.070.050.05
0.090.080.080.060.03
0.020.020.020.030.04
?1CP70
0.01*
CO-01CO. 01CO.OlCO. 01CO.Ol
CO.OlcO. 01CO.OlCO 01coloiCO.OlCO.OlCO.OLcO.01CO.Ol
CO.OlCO.OlCO.OlCO.OlCO.Ol
CO 01co!oiCO.01co. 01CO.Ol
COOlcoioiCO.OlcO.01CO.Ol
KICP78
0.01*CO.01CO. 01CO.01CO.OlCO.Ol
CO.01CO.01COOlcO.01CO.Ol
CO.OlCO.01CO.OlCO.OlCO.01
CO.01cO.01CO.01CO.01CO.01
CO.01CO.01CO.OlCO.OlCO.Ol
CO.01CO.OlC0.01CO.01C0.01
CaICP70
0.01*O.L90.280.090.090.11
0.560.090.070.050,04
OM0^040.030.050,01
0.010.020.060.020.02
0.030.070.050.070.05
(J.070.030.050.070-10
SeICP70
0.5ppm
3.63.53.23.23.4
3.43.54.24.t)3.7
3.83.93.63.23.3
3.23.24.44343
5-04.85.43.73,3
3.03.23.33.03.6
liICP70
0.01"h
CO.OLCO.OlcO.01CO.OlCO.Ol
c 0.01comC 0.01cO.01CO.Ol
CO.OlCO.OlCO.OlCO.OlCO.Ol
CO.Olco.oiCO.OlcO.01CO.Ol
CO.01CO.01C0.01c 0.01CO.Ol
CO.OlCO.OlCO.OlCO.OlCO.Ol
VICP70
2ppm
23323
434
C2C2
C24
C2C2C2
C2c2
422
44332
C2c2C2
23
Jro roC3CD—3
mo en
oo
x:
Member d tt*SGS Group (Soei6t6 GMnJa de Suveffiinoe)en en
XRAL XRAL LaboratoriesA Division of S OS Canada l ne.
Work Order: 059127 Date: 02/05/00 FENAL 6 Of 10
iroC3 C3 C3
Element. Method. Det.Lira. Unite.
1223112232122331223412235
J2236 12237 122351223912240
12Z4112242122431224412245
12246122471224812249*Dup 12201
*Bup 12213*Dup 12225*Dup 12237*Dup 12249
YXRF10J
2ppm
n. a.B .a.n.a.n.a.n.a.
n.a.n.a,n.a.n.a.<2
n.a.rta.n.a.n.a.n.a.
o. a.n.fi.a. a.<2
n.a.
n.a.Q.4,n.i.<2
ZrXRF103
2ppm
n.a.o. a.n.a.fl.a.n.a.
n.a.u.a.n.a.n.a.C2
n.a.n.a.n.a.n.a.n.a.
n.a.n.a.E.a,
6n.a.
A. a.n.a.a. a.
6
NbXRM03
2ppm.
mt.no.n.a.n.a.D.a.
n.a.run.D.a.n.a,^
n.a.n.a.Q.a.n.a.n.a.
B. a.a. s.n.a.<2
n.a.
n.a.n.a.n.a.<2
BaXRF103
20ppm
n.a.n.a.n.a.D.a.n.a.n.a.n.a.n.a.n.a-c:20
n.a.n.a.n.a.D. a.B. a.n.a.n.a.n.a.c 20n.a.
n.a.n. a.fl.a.^0
BeICP7*
0.5ppm
•CO.SO.5<0.5*:0.5<o.sc 0.5<OJ<0.5•C 0.5<0.5
C0.5<0.5<0.5C0.5<O.S
cO.5c 0.5cO.5•C0.5<0.5
<03<a.5<0.5*C0.5
NaICP70
0.01*
^01<0.01<0.01<o.o^<D.OI
^.010.02
<0.01<o.^)lCO.Ol
^.01<0.01<0.01<0.01<0.01
^.01<0.01<0.01<0.01cO.Ol
*;0.oi<0.01<0.01<0.01
MgICP70
0.0151
LL912.911.711. l11.1
10.611.213.712.511.8
11.612. S13.012.111.6
1L510.77.347.6811.9
11.611311.17-65
.41ICP70
0.01Ik
0.040.040.030.020.02
0.040.020,020.020-02
0.020.020.010.020.01
0.01o.ot0.400.040.09
0.030.030.020.04
PICP70
G.OIft
-•CO.Ol•CO.Ol*cO.Ol•CO.OtCO.Ol
*C0.01•CO.Ol^.01^.010.01<0.01*:0.01<0.01cD.Ol^.ox^.01•cO.Ol
0.03•c 0-01CO.Ol
CO.Ol•C0,0l<0.01<0.01
KICP70
0,01ft
C0,01C0.01C0.01CO.Ol<0.0l
<0.01<0.01C 0.01CO.OlC0.01
<0.01C 0.01CO.OlCO.OICO.OI
<fl.01<fl.o^^.01•CO.OlcO.Ol
C 0.01<0.010,01c 0.01
Ca1CP70
0.01ft0.090.040.040.020.01
0.020.020.080.150.18
0.060.490.220.150.09
0.220.351.413.J10,19
O.C30.050.023.49
SeICP70
0.5ppm
3.63.43.02.93.0
3.02.82.82.92.7
I.I2.82.92.82.8
2,62.52.72.93.6
3.53.42.82-8
TL1CP70
0.01"h
C0.01•CO.OlC0.01C0.01C0.01
CO.OtCO.OlCO.Ol<0.01CO.Ol
CO.OlcO.Ol•crO.OlCO.OlC0,0t
CO.OlCO.OlCO.OlCO.Olc 0.01
-CO.OICO.OlCO.OlC 0.01
VICP70
2ppm
223
C2^
<2C2C2
32
<2333
C2
22621
2C2C2
2
ffi0in
en-o
Tt ^X
tz.p—
Msrtber of the SSS Gteap (SoeW4 Generate de Surveillance)
CD-o
XRAL XRAL LaboratoriesA Division of SGS Canada Inc.
Work Order: 059127
Element. Method.
Umts.
1220112202122031220412205
1220S 12207 12203 12209 (2210
1221112212122131221412215
12213 12217 1221B 12219 1222D
1222112222122231222412225
1222612227122281222912230
Date; 02/05/00
CrICP701
ppm
250272184166200
167IBS259148154
130177126101104
10588
133190214
212223212190lil
1108789
138148
MnICP70
2ppm
590594494547450
608506610606558
560618570471512
511704589654605
622573641624587
604508441730559
TeICF70
0.01?fc
1.051.461.551.161.79
2.331.732.261.170.980.792.010.750.660.76
0.690.540.730,911.37
L921,521.432.00136
1.070-650.461.391.33
CoICP70
Ippm
3443423846
3943573233
3357332934
3327293941
4042393931
3632283936
FINAL
NiICP70
lppm
303566556415582
363417729268287
283843301226290279207223311351
5003272E9361241
371254240413315
CuICP70
0.5ppm2.07.68.64.4
89.1
17.03.02.2I.I
19.8
2.62.61.40.91.8
1.60.51.30.7
C0.5
1.51.60.5C. 61.0
1.71.41.4K21.7
ZnICP70
0.5ppm
13.916.715.312,515.1
13.413.818,211.516.5
12.121.611.18.3
10.3
9.48.9
10.811.612.0
15.812.711.5IZ610.3
9.77.57,1
10.611.5
AsICP70
3ppm
C3C3OcsC3o-C3-c3-c3C3
7O
4O
6
54
c39
0
C3C30Ocs0C3oocs
STICP70
0.5ppm
2.52.51.71.52.2
2.51.61.00.7OJB
0.80.80.71.40.5
coso!s1.6
•C 0.5•C 0.5
1.51.31.11.40.8
1.40.6O.R0.61.2
Y1CP70
0.5ppra
<0.5<0 5•CO.SCO.S•CO.S
*C0.5•co!s•co.s•C 0,5•CO .5
CO.SCO 5•c 0.5CO 5•CO.S
•CO.S•CO.S
0.7CO.SCO.S
COSO!BC 0.5cO.5
0.6CO.SCO.SCO.SCO 5
0.6
Paee 7 of 10
ZrICP70
0.5ppm
•COJ•C0.5•CO.5C0.5•C0.5
C 0.5C 0.5CO 5C 0.5
0.6
0.8C 0,5C 0.5•C0.5•C0.5
CO 5C0^5<0 5C0.5C0.5
COS•Cft 5^.5<0.5•C0.5
<0^COJ<0.5<0.5C0.5
Mo AgICP70 ICP70
1 0.2ppm PPm
C J 0.4Ci <Q.2CI 0.3CI 0.4Ci 0.5
Ci OJCi 0.5CI 0.3c] 0.3<\ 0.4
Ci -C0.2ci o!s<l 0-3^ C0,2CI cO.2
<^ 0.3CI 0.3ci 1.3Ci 0.4•Ci 0.2
CI -cO.2CI 1.2
Ci ^2Ci 1.0
CI 0.3ci 0.8Ci 0.3Ci 0.4CI OS
CdICP70
lppmcici*;lCICI
^< [< l.^ lci
<1e^ l<l<l
1
^<l<l<l<l
^< [< 1•CIcit:{<^<[*;|<l
ro oCD
sen^0-13rx
-n:K:
P—
Member of tti* SGS Group CSoclettGAwrele* S weillwioe)
KRAL XRAL LaboratoriesA Division of SGS Canada Inc.
Work Order: 059127 Date: 02/05/00 FINAL Paec B of 10
grvja o
Element. Method. Det-Lim. Unils.
1223112232122331223412235
1223612237122381223912240
1224112242122411224412245
12246122471224812249*Dup 12201
*Dup 12213 "Dup 12225*Dup 12237*Dup 12249
CrICP70
1ppm1421281017187
9172
105122108
93121in11183
978492
113258
13211876
115
TVfaICP70
2ppm538743510566539464546651554463
468568594470538
487467400703593
565598543696
FeICF70
0.01ft
1.291.451.140.600.74
0.660.641.761.662.00
1.732.652.572.021.37
2.132.171.B61.871.06
0.771.390.651.84
CoICP70
ippro
3534352927
2630383631
2930353228
3439293131
33332931
NLICP70
1ppm
30438 1311221207
210211306360244
233292252247200
249292279304353
30L249210314
CuICP70
0,5ppm1.00.71.7
CO.50.5
CO.S0,91.12.00.95.3
1531.01.70.7
6.36.59.12.71.5
1J0.50.6IS
ZnICP70
0.5ppm
11.311.110.68.26.7
6.67.19.29.98.5
8.7939.48.77.6
8.47.1
10.96,3
13.1
10.810.37.26.4
AsICP70
3ppm
C3C3CJC3C3
c3C3OC3c3
c3C3C3C3O
C3C31133
C3
30C334
SrICP70
0.5ppm
1.3O.g0.91.30.60.91.81.93.23.0
3.614.87.84.62.6
4.76.7
37.474.62-5
0.70.91.7
74.1
YICP70
0.5ppm
CO.5CO.5CO.5CQ-5CO.5
•CO.5C 0.5CO.S
0.5CO.5
C0.5CO 5coisC 0.5cO.5
COSCO.5
0.8cO 5cO.5
CO.5c 0,5CO.5cO.5
ZrICP70
0.5ppm
COS•OSC 0.5C 0.5CO.5
CO.5C 0.5COSc 0,5C0.5
CO.SC 0.5c 0.5CO 5CO.S
1.2c.0.5
1.31.5
•CO.5
CO.5CO.5CO.5
1.0
Mo1CP70
1ppm
zl•;1CICIcio^ci< 1ci^.1
CI^ciCIci•ci^\ci
CI*;3Ci
AgICP70
0.2ppm
CDlOij1.1
cO.20.3
0.20.7
CO.21.1O.I
cO.20.4
CO.20.90.4-
0.40.40.60.403
0.70.80.50.4
CdICP70
1ppmciciCIciciciCIci•CI•ci•cicici•CI•ci
<lCI<l•ci4, {
< [CI*:i
mCDen^j
rz
-n**2:-—
Jitemberofthe SGS Group (Societt Gfoerafc deSUrwIltono*)o CD
XRAL XRAL LaboratoriesA Division of SGS Canada Ire.
Work Order: 059127 Dale: 02/05/00 FINAL 9 olio
Oro iro o o o
Element. Method. Det.Lun. Units.
1210112202122031220412205
1220612207122081220912210
1121112212122131221412215
1221612217122181221912220
1222112222122231222412225
1222612227122281222912230
SnICP70
10ppm
c 10ClO"CIOCIO•CIO
CIO•c 10•c 10•c 10clO-no<10<10<lOClO
ClO<10<10<10<10
<10<10<10<10clO<10<10<10<1000
SbICF70
Sppm
C5C5<5CS^
CS<5<5C5C5
c5CS<SC5<5
CSCSC5<5C5
0C5C5c5CS
C5<5CSC5C5
BaICP70
1ppm
<l4=1
CICiCI
cici1CIciCIciciCICI
CICICIciciCICIciciciciC]cicici
LaICP70
0.5ppm
cO.S0.71.10.71.6
2.31.21.8O.R0.8
C0.52.0
C 0.5C0.5C 0.5
C 0.5C0.5CO. 5C0.5C0.5
1.8C0.5C 0.5
1.9C 0.5
c 0.5C0.5C0.5C0.5C0.5
^YKF70
10ppra
CIOC 10CIOclOC 10
CIOClOclOclOCIO
CIOClOClOclO•CIO
CIOclOclOcioCIO
clOCIOCIOC 10clOClOClOClOClOClO
PbICP70
2ppm
13C2C2^C2
C2C2C2c2
2
C2C2C2c2C2
C2CIC2C2C2
C2C2C2C2C2
C2C2C2C2C2
Bt1CP70
5ppm
C5C5C5CSC S
c5C5CSC5CS
CSc:sC5c5cS
CSC5<5C5C5
CSC5C5C5C5
C5cSCSC5C5
GOZCKM1U
0.01'Sk
27.229.129.027. 230.4
30.229.632.728.825.4
26.637.827.825.423.0
26.226.022.525.925.2
29.825. B24.728.224.4
28.624.525,02B.425.8
m o
oa
Member of Ite SGS Geoup (Socfcfc G^ntate de SurvBflhnoe)
XRAL XRAL LaboratoriesA Division of SOS Canada Inc.
Work Order: 059127 Date: 02/05/00 FBSAL fattlQ of!OCD O CD
Element. Method. Det.lim. Units.
1223112232122331223412235
1223612237122381223912240
1224112242122431224412245
12246122471224812249*Dup 12201
*Dup 12213*Dup 12225*Dup 12237*Dup 12249
SnICP70
10ppm
<10<10<10<10*c 10
<10<10<100000
c: 10oo<10<IO•CIO
-c to00<LO•C LO•C LO
CIO<IO<10<IO
SbICP70
5ppm<5^<5<5<5
<5OO^<5
^OO^<5
<5Oc5C5<5
<5C5<5<5
BaICP70
1ppm•ci<I<i*:i<[<l<l<l•el<l<l<I<l•ci<l
67
<l3
•CI
<[<i<I
2
LaICP70
C. 5ppm
0.91.60.7
C0.5<0.5
^.5<0.5<0.5
1.31.7
l.l1.32. B1.00.8
3.12.26.12.9
•C 0.5
•C0.50.9
^.52.4
WTCP70
10ppm
0000C 10OOoo0000000000
00oo000000
ooclO0000oooooo0000
PbICP70
2ppm
^^^c2^<2^C2<2^
C2<2<2<2^
C2<2<2<212
ttO^<2
BiICP70
Jppm^^<5<5<5
<5^<5<5<5<5^<5<5<5
<5^<5C5<5
<5^<5<5
C02CHM114
0.01•b
24.127.92S.924.624.2
24.324.42A.528.426.3
28.226.728.326. 126.7
28.026.519,623.926.4
2S.725.323.523.5
men en
CD
Mertoe* of ttie SOS Group (SceSle Odotete ite SuniRftanceJ
XRAL Les Laboratoires XRAL LaboratoriesUna Division de 7 A Division of SGS Canada Inc.
129 A ve. Mancal Baril Rouyn-Noranda, Quebec canada J9X 789TOUphone (819) 764,9)08 Fax (819) 764-4673
From: JOE LANDERSOPERATIONS MANAGER
Date: August 12,1999
Copies: .
To: SAMPLE PREPARATION XRAL ROUYN-NORANDA
Subject: QUALITY ASSURANCE IN SAMPLE PREPARATION
MEMO
IN SAMPLE PREPARATION, THE FOLLOWING PROCEDURES WILL BEFOLLOWED:UPON RECEIPT, THE SAMPLES WILL BE UNPACKED AND ARRANGED INNUMERICAL ORDER. THE SAMPLES RECEIVED WILL BE COMPARED TOTHE CLIENTS SAMPLE SUBMITTAL FORM. ALL DISCREPENCIES WILL BENOTED ON THE SAMPLE SUBMITTAL FORM AND A SUPERVISOR WILL BEINFORMED. IF NO SAMPLE SUBMiTTAL FORM HAS BEEN ENCLOSED, ONEWILL BE PREPARED AT THIS TIME AND A COPY FAXED TO THE CLIENT.THE SAMPLES WILL THEN BE ENTERED INTO OUR COMPUTOR SYSTEMAND THE REQUIRED SAMPLE LABELS AND WORKSHEETS PREPARED.UNDER NO CIRCUMSTANCES WILL PREP BEGIN BEFORE THIS PROCEDUREIS FOLLOWED.A COPY OF THE SAMPLE SUBMITTAL FORM WILL BE GIVEN TO THE PULPWEIGHERS AT THIS TIME AS WELL.BEFORE THE FIRST SAMPLE IS CRUSHED, THE CRUSHERS WILL BECLEANED WITH SUITABLE MATERIAL.WHEN THE FIRST SAMPLE IS CRUSHED, A SPLIT WILL BE SCREENEDTHROUGH EITHER A 10 OR 24 MESH SCREEN TO DETERMINE THAT 900X0WILL PASS THE REQUIRED MESH. THESE TESTS WILL BE RECORDED INTHE LOG PROVIDED. IF 9007o DOES NOT PASS, THE CRUSHERS WILL BEADJUSTED AND SCREEN TESTS REPEATED UNTIL 90*6 PASSES THEREQUIRED MESH. AT THIS TIME, ALL CLIENTS REQUIRE SO1*, PASSING 10MESH.CRUSHER REJECTS WILL BE STORED IN BOXES PROVIDED FOR THISPURPOSE. THE CUSTOMER NAME, PROJECT, FILE NUMBER AND SAMPLENUMBERS MUST APPEAR ON ALL BOXES AND THIS INFORMATION MUST BEREADABLE. DO NOT MIX PROJECTS.CRUSHING EQUIPMENT MUST BE CLEANED WITH AIR AND OR BRUSHBETWEEN SAMPLES. THE RIFFLE MUST ALSO BE CLEANED BETWEENSAMPLES.
Member of the SGS Croup (SocteU G*n*rata de SuiveMance)
ALL EQUIPMENT PROBLEMS MUST BE REPORTED TO A SUPERVISORIMMEADIATLY. THESE INCLUDE HOLES IN SAMPLE PANS AND RIFFLESTHAT REQUIRE REPAIRS.THE PERSON CRUSHING AND SPLITTING WILL RECORD THEIR NAME ANDJOB PERFORMED ON THE SAMPLE SUBMITTAL FORM. THEIR NAME WILLBE READABLE.PULVERIZERS WILL BE CLEANED WITH SILICA SAND BEFORE EACHSAMPLE BATCH. BETWEEN SAMPLES, THE PULVERIZER WILL BE CLEANEDWITH AIR OR VACUUM.AFTER PULVERIZING THE FIRST SAMPLE OF A BATCH, A SCREEN TESTWILL BE DONE TO ENSURE THAT 900Xo PASSES 200 MESH. TIME WILL BEINCREASED AND SCREEN TESTS DONE UNTIL 800Xo PASSES 200 MESH.THIS IS FOR ALL CLIENTS.SAMPLES WILL ALWAYS BE PULVERIZED IN NUMERICAL ORDER ANDPLACED IN THE TRAYS PROVIDED IN NUMERICAL ORDER.WHEN A TRAY OF SAMPLES IS COMPLETED, THE TRAY WILL BE PLACEDON THE RACK PROVIDED. THESE TRAYS MUST BE KEPT IN NUMERICALORDER IN THIS RACK.IF YOU SUSPECT A SAMPLE MIX-UP OR ANY OTHER PROBLEM CONSULT ASUPERVISOR IMMEADIATELY.WHEN SCREENING METALLICS, ENSURE THAT YOU HAVE THE PROPERSCREENS( 100,140 OR 200 MESH) NOTE THIS ON THE BAG CONTAININGTHE + PORTION.
THE PERSON PULVERIZING WILL ALSO ENTER ALL SCREEN TEST RESULTS IN THE LOG PROVIDED FOR THIS PURPOSE. THE INFORMATION REQUIRED IS DATE, CLIENT. FILE NUMBER AND TEST WEIGHTS.
THE PERSON PULVERIZING WILL ALSO RECORD THEIR NAME AND JOBPERFORMED ON THE SAMPLE SUBMITTAL FORM. THEIR NAME WILL BEREADABLE.THE SUPERVISOR WILL COLLECT ALL COMPLETED SAMPLE SUBMITTALFORMS AND FORWARD THEM TO THE OFFICE FOR FILING WITH THECOMPLETED FILE NUMBER.
I'l l\ 1.O—X-)-m i.J-130 rw-m.*
-*, . . . .' date here
XRA X-R ay Assay LaboratoriesA Division of SQ3 Supervision Service* Inc.
i.'- iJri
Wbole Rod; Analysis b j X-Raj Fhiroescenre Spectrometry
J
Description: — ~.. ' - -\ " 7? : . - ~~-
A x: tram ample, after routing tt 950 degrees fer l hour, ii fased wiU) 7.7 gram of lithium tetraboratc and itc
The buam a analyzed on a r:.:::^ r" " f?o simultaneous x-ray nuortactnce speeoontecor. Thil tysum limUhratfri infag man- lh*n 4fl rftnr*tf. mfintjl* pmur ^f (K^g, H*"B ^^'Tf-fl1 Jn !T G^.u.J^^'. ".cfciied"value* compilation*? -T- •^•'-.-;. : ~ ~*
Couminf time on major elements 14 tiO acuoodi OK! codh of theca ii*na}jzrxi Tor ihroushils own AXC4 cbaoncL Trace deoienu inJSii package ait nw as COOKS are accumulated for tte raaJoMuiinticiBaar.
L.OJ. is obuinod Gram tbp maaio( meataoued above. An dements determined ate added and any ampka with a cum of less than 98*0^ Wgber thin 10^ cm tiHTomaticafly repealed. TbiigivctuicdDtrolovartlwbuflaa
laononempmi&kmoainaadcniausisbciicriluuiOLS^. Only oa tower count tiiei would one'(aperience errors of T-2%.
001* B* 001* Nb Wl* Sb OJOl* ft 001* y
K2O ODl* afcaOj 001*MNO Ml*
O01*
HOa OJOl* LOI 001*
Prepared by Apprpvctfby80S Omp (SbdM QINt* 4* ftmfluiat
-Hw. O December 19/91 PJUl
X-Ra y Assay Lab" storiesr HMaton of 8GS Supcrrtston services fro.'
w. ^-cenca Specfaraautry - 27 demente - Hniid PcOtt
De*criptioa:- *v.-,;.-
Aikui2 g of sample ii required for tbft analysis of coe or all of the above elements. A poDc* li kaadcu uito . holder of the aflnmadc ample changer of a Philips PW14QO wavelength dispCRfl ve vray tpecauneuir. Tbo40 mm diameter sample pellatt are loaded ax lo a tray with a tool of 10 nays. -~#.';:V , ,,
T -rm m m mert fiitmgiM jrmn^hrffl empiayinj a tWKinn fcnha whifJl alao MVM M Ml
jnatcriaU axe inserted with thcae samples to verify calitmiuL CftHbratian ia piugiuuuaed into die iaaranieoi and itucr-ekmeoi concciioos arc appKed to aecusary Bnalyte dements. Conunoftly I'equeoied deaiDai ccoblnuioas an prDgranmiod lo bc dcuamincd individually or I
This pracadnre ia m juiuble for minaafeed maSEdals.
Xbo pin*im^un ajnccsntrwloo icoongU by theao proccdum is gmonfly 5000 ppm. Amdtyvui for dements *iih ecocentatians higber dun SOOOp^xDiixialdbeMttly^edbyarieafouraflnypracedare^ Tbe amy ptocedore
"1" ^1"1*"" ft"t^- "^ **^ Mtto foIlnm—A K tf^ |wapmrim rfa pmerf dlric.
ftxifm produces a wry **rtrnoffTfrnn mnple iur'"iinl widi a unifom gcsln we. Tlie futfoft also*~tit™* i"p-^t fe^i (h- nmpk1 T*ftfa Tfr* fni WBjl'*l'*" 1"g ""1"^ ^f tf^pynpfiilfitt* flu* iMelfthm
rt rnllhr^l^in* Internal fteqt^n^ y* jjnn ffpnri fnram^y gpadfl MlyiU.
ptocedure i* caatauial to produce the accuracy and predslmrequircqKairs needed fix at^ grade analysia.
Sb 3ppm Pb 2ppm H 5ppmAi Sppm Mo 2ppm 111 ' 2ppmBt 20ppm Nb 2ppm So. 5ppmBl 3ppm Nl Zppm Tt SppmQ SOppm Rb 2ppm V 3ppmCo 2ppm Se 3ppm U ' IpP™Cu 2ppm Sr 2ppm Y ZppoOa 3ppm S 50ppm Zr 3ppmFR 3ppm TA 5pprn Zn
Prepared by - Approvcdby Dale
Mwnkw of (h. SOS Qrawp (ta** G4n*rtta de Sunwfcno*)TOTPL P.08
MAY-03-2000 WED 09:13 AH
XRAL
FAX NO. l
XRAL LaboratoriesA Division of SGS Canada Inc.
Issue 1 Rev. O Mar.20,37 Part Page#
P. 02/03
Acid Extraction, determination by ICP Spectroscopy -'32 Elements '
Description:
A quarter gram sample is digested with 2 ml of nitric acid for one half hour in a water bath, then 1 ml of hydrochloric acid is added and the digestion continues for another 2
- hours. Test tubes are shaken at regular intervals.
•In house standards and previously analysed samples are run to monitor proper digestion procedures. Synthetic standards are used to calibrate the instrument.
Limitations:
The nitric aqua regia extraction will not completely extract difficultly soluble elements such as Ba,Cr.Sb,Sn.Ta,W,V and Zr. The multi-add extraction ( Method code 80-1 ) will ensure better extraction, though some refractory minerals may remain incompletely attacked. Volatile elements such as As may be lost from solution in the multi-acid attack.
Elements:
AlSbAsBaBeEiCdCaCrCOCu
0,01 "/o Sppm 3ppm ippm.SppmSppm1ppm.01 "/o1pprnippm.Sppm
Fe Pb La Mg MnHg.MoNiPKSe
0.01 "/o2ppm.Sppm.01 "/o2ppm1ppm1ppm1ppm.or/o.01 To
.5ppm
AgNaSrSnTiWVYZnZr
.2ppm
.01 "/c-SppmiQpprn.01 •fcicppm2ppm.Sppm.Sppm.Sppm
Prepared By Approved by Date March 20, 1997
Member of ihe SGS Group (Sotitit G*n6al* d* SUN*llbne*l
HAY-03-2000 WED 09:14 AH FAX NO. l P. 03/03
XRAL XRAL LaboratoriesA Division of 5GS canada inc.
Method Code CHMl 14Issue LRev. OOctober 11, 1996
Page l
DETERMINATION OF CARBONATE CARBON
Description:
Instruments:
5010 CO2 Coulometer
5030 Carbonate Carbon apparatus
Procedure:
Samples and Control 88-b are weighed directly into test tube using 5 decimal balance.
Weighing range 0.02 to 0.1 gram.
The test tubs Is connected to CO2 coulometer and 2 ml of 2 N HC104 is dispensed into test tube.
The test tube is placed on heating coil.
The CO2 is then measured by coulometer.
Prepared by Approved by Date
Mombor of tho SGS Group (SocUl* Qtintrate da 5uoeO|amv)
Timmins Magnesite Deposit: Analytic Results DDH's KDE99-01 fe KDE99-02
Appendix H - Company Press Releases
by Globex Mining Enterprises Inc.
Globex Mining Enterprises Inc."At Home in North America"
(GMX - TSE)
•Q LCD B g
February 25, 2000
PRESS RELEASE
GLOBEX ACQUIRES LARGE CANADIAN MAGNESITE DEPOSIT
ROUYN-NORANDA, Quebec. Globex Mining Enterprises Inc. (GMX -TSE) is pleased to announce that it has acquired ownership of 100Vo interest in the Deloro Magnesite Deposit, 13km south east of Timmins, Ontario.
The Deloro Magnesite Deposit is a large magnesite-talc altered dunitic komatiite (or possibly a series of highly altered flows). It is roughly 1800 metres (5,900 ft.) long with a maximum width of approximately 300 metres (980 ft.). Drilling has confirmed the structure to a depth of 120 metres (400 ft.) delineating approximately 100 million tonnes of drill indicated industrial mineral grading greater than SO'/o magnesite 25 to 3007o talc and 160Xo quartz. The zone is open to depth, outcrops on surface and can be mined by low cost open pit methods.
Further bench scale metallurgical test work on the magnesite must be undertaken. Extensive previous test work indicates that a high purity magnesia can be economically produced. Also, the talc component of the ore, is of high purity, is fibre free and is very light in colour (brightness of 89) making it ideal for high end uses such as cosmetics or the pulp and paper industry for pitch control and fine paper finishing. Local markets may also be developed for the silica residue. The location of the deposit near Timmins, Ontario, with its skilled workforce and excellent infrastructure, is a very positive aspect.
Magnesium is the lightest structural metal, is two thirds the weight of aluminium, is non-toxic, has high strength-to-weight ratios and better casting and machining properties than aluminium as well as the capacity to dampen and absorb vibration. For these reasons as well as the need to meet new fuel consumption legislation, the automobile industry is projected to increase its use of magnesium by 15 to 20"7o each model year. Automobile companies, in order to provide predictable sources of supply and stable prices have been aligning themselves with magnesium producers (Volkswagen AG with Dead Sea Works in Israel, Ford with Australian Magnesium Corporation in Australia and General Motors with Norsk Hydro at Becancour, Quebec). Other uses of magnesium (refractories, high temperature insulation, animal feeds and fertilizers, magnesia cements, fireproof boards, paper processing, chemicals, pharmaceuticals, etc.) are projected to increase by 50Xo annually. Recent prices for magnesium have ranged in the USS1.407lb (USSS.OS/kg) area.
For further information, contact: Mr. Jack Stoch, President Globex Mining Enterprises Inc. 146-14th StreetRouyn-Noranda, Quebec (CANADA) J9X 2J3
Tel.: (819)797-5242Fax: (819)797-1470
Email: [email protected]: http://www.globexmining.com
Globex Mining Enterprises Inc."At Home in North America"
(GMX - TSE)
May 3, 2000
PRESS RELEASE
POSITIVE ASSAY RESULTS FROM TWO RECENT DRILL HOLES ON GLOBEX'S MAGNESITE-TALC DEPOSIT, TIMMINS, ONTARIO
ROUYN-NORANDA, Quebec, Globex Mining Enterprises Inc. (GMX -TSE) is pleased to announce the results of two recent drill holes completed on its 100Vo owned Magnesite-Talc Project, 15 km southeast of Timmins,
Ontario.
Two drill holes, located 80 metres west of the westernmost drilling on the deposit, collared in magnesite rich mineralization. Drill hole KDE- 99 - 01 intersected continuous magnesite from 3 metres to 77 metres down the drill hole, ending in magnesite mineralization. Drill hole KDE-99-02 collared 50 metres due south of hole KDE-99- 01 similarly started in magnesite mineralization at 3.5 metres and ended in magnesite
mineralization at 74 metres.
The drilling was performed by Norex Diamond Drilling Ltd. of Timmins, Ontario.
The core was split with half the core remaining in storage and half being sent to SGS-XRAL Laboratories
in Toronto, Ontario for analysis. The submitted material was analysed by standard X-ray fluroescence spectrometry (XRF). Values are reported in weight percent oxide and has a detection limit of 0.01 "/o.
See the attached appendix for assay results of the magnesium oxide analysis.
The very positive assay results extend the already significant ore deposit westward while leaving the extensive mineral body open in all directions. The deposit, a mixture of magnesite, talc and silica has already undergone detailed metallurgical studies and is well positioned to eventually enter the rapidly
expanding magnesium metal market.
Globex Mining Enterprises Inc. is an exploration company dedicated to exploring exclusively in Canada and the United States. Thirteen of Globex's projects have resources and/or reserves of either precious, base or industrial metals and are located in Quebec, Ontario, British Columbia, Nova Scotia, Arizona,
Nevada and Washington.
For further information, contact:
Mr. Jack Stoch, President Globex Mining Enterprises Inc. 146-14th StreetRouyn-Noranda, Quebec (CANADA) J9X 2J3
Tel.: (819)797-5242Fax: (819)797-1470
Email: [email protected]: http://www.globexmining.com
APPENDIX
GLOBEX'S MAGNESITE-TALC DEPOSIT NEAR TIMMINS, ONTARIO MAGNESIUM OXIDE ASSAY RESULTS OF TWO RECENT DRILL HOLES
DDH KDE-99-01
From (m)
35811141720
23
26
29
32
3538
41
44
47
50
5356
59
62
65
68
71
74
To (m)
5
8
11
14
17
20
23
26
29
32
35
38
41
44
47
50
53
5659
62
65
68
71
74
77
Length
23333333333
3
3333
3333
333
3
3
MgO (wt0Xo)
37.9
36.7
35.5
35.0
36.1
36.1
36.5
36.7
38.6
38.0
38.1
40.439.0
37.738.738.539.0
38.238.636.5
35.4
36.1
37.7
36.8
38.6
DDH KDE-99-02
From (m)
3.55
8
1114
17
20
23
26
29
32
35
38
41
44
47
50
53
56
59
62
65
68
71
To (m)
58
11
14
17
20
23
26
29
32
35
38
41
44
47
50
53
56
59
62
65
68
71
74
Length
1.5
3
3
3
3
3
3
3
3
3
3
3
3
3333
333
3333
MgO (wt0Xo)
37.239.039.037.936.3
37.6
38.4
38.4
39.3
39.0
39.1
39.7
38.8
38.038.8
39.037.138.838.6
39.238.4
38.6
33.3
32.7
Note: Both drill holes start and end in magnesite mineralization.
Globex Mining Enterprises Inc. (Press Release - May 3, 2000)
Ontario Ministry of
•nd MinesDeclaration ot Assessment Work Performed on Mining Land
Mining Act, Subsection 65(2) and 66(3), R.S.O. 1990
i r driidci. i on ixumuer use)
Assessment Files Research Imaging
le authority of subsections 65(2) and 66(3) of the Mining Act. Under rd. This Information will be used to review the assesment work and lection should be directed to a Provincial Mining Recorder. Ministry iad. Sudbury, Ontario. P3E 6B5.
42A06SW2010 2.20287 DELORO 900
Instructions: - For work performed on Crown Lands before recording a claim, use form 0240. - Please type or print in ink. O-
1. Recorded holder(s) (Attach a list If necessary)
Name Client Number ^760
Address Telephone Number
Fax Numberan-Name Client Number
Address Telephone Number
Fax Number
Z. Type of work performed: Check (S) and report on only ONE of the following groups for this declaration.
Geotechnical: prospecting, surveys, assays and work under section 18 (regs)
Physical: drilling stripping, trenching and associated assays D Rehabilitation
Work Type
Cm .4- 37. --t W***-*^ S J
(s^-t
Office Use
Commodity
Total t Value of Work Claimed
Oates Work Performed
From 2J?" O t.Day | Month | Year
To lJ Day
OS" ,l Month l Year
NTS Reference
Global Positioning System Data (if available)
Township/Area Mining Division
M or G-Plan Number Resident Geologist District
Please remember to: obtain a work permit from the Ministry of Natural Resources as required;provide proper notice to surface rights holders before starting work;complete and attach a Statement of Costs, form 0212;provide a map showing contiguous mining lands that are linked for assigning work;include two copies of your technical report.
3. Person or companies who prepared the technical report (Attach a list if necessary)
Telephone Number
Fax Number
Name Telephone Number
Address
Name
Address Fax Number
4.
I.
Certification by Recorded Holder or AgentQ iy y. l .P* ' V - * A-lV\V do certlfv that I h:wo pertnnal Irnnulorirjo nf tt
n(,, rt.,PORCUPINE MINING DIVISION(Print DIM)
this Declaration of Assessment Work having caused the work to be performed or witnessed the same during or after its completion and, to the best of my knowledge, the annexed report is true.
Signature of Recorded Holdej^or^Agent
r^* v '
0241 (06/97)
5. Ho.k to be recorded and distributed. Work can only be assigned to claims that are contiguous (adjoining) to the mining lard where work was performed, at the time work was performed. A map showing the contiguous link must accompany this form.
Mining Cilia Hurtle r- Or Ir
work was done on other eligible mining land, show In this column the location number indicated on the claim map.
eg
eg
eg
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
TB 7827
1234567
1234568
P.asooqnp. as oo^p.-SrSoo^T.
P. 1-9 0^?q "l
Column Totals
Number of CI Urn Unm. for other mining land, 11st hectares.
16 ha
12
2
1
t
l
^
0
Value of work performed on this claim or other mining land.
J26.825
0
S 8.892
-L7 0^
0O
O
^lO?*f
Value of work applied to this claim.
N/A
S24,000
S 4,000
O^/oo
/|00 2^f 11 7 OO
bf*.
—— ZJQ9O —— * 4S^
Value of work assigned to other mining claims.
S24.000
0
0tA****a
\0I-*
.t1*~\ j~\- - ^ c
/^ .f2-CW
Mfc^S
De distribute
52.82S
n 0 ,
^S( /V j] J4.892 \T\
-43* W
•"-)i - -- ,/^
y fa-*r1*J
, do hereby certify that the above work credits are eligible under(Print Full N*(M)
subsection 7 (1) of the Assessment Work Regulation 6/96 for assignment to contiguous claims or for application to the claim
where the work was done.
Signature der or Agent Authorized 1n Writing
6. Instructions for cutting back credits that are not approved.
Some cf the credits claimed in this declaration may be cut back. Please check (X) in the boxes below to show how you wish to prioritize the deletion of credits:
tr 1. Credits are to be cut back from the Bank first, followed by option 2 or 3 or 4 as indi cated.
tJ/2. Credits are to be cut back starting with the claims listed last, working backwards;
D 3. Credits are to be cut back equally over all claims listed in this declaration; or
D 4. Credits are to be cut back as prioritized on the attached appendix or as follows
or
(describe):
Note: If you have not indicated how your credits are to be deleted, credits will be cut back from the Bank first,
followed by option number 2 if necessary
For Office Use On!Received Stamp
0241 (06/97)
PORCUPINE Mi-N^G DIVISION
Deemed Approved Date
Date Approved
Date Notification Sent
Total Value of Credit Approved
Approved for Recording by Mining Recor
Ontario Ministry ofNorthern D*v*iopm*niand Mines
Statement of Costs for Assessment Credit
Transaction Number (office use)
Personal Information collected on this form ts obtained under the authority of subsection 6 (1) of the Assessment Work Regulation 6/96. Under section 8 of the Mining Act. this information 1s a public record. This Information will be used to review the assessment work and correspond with the mining land holder. Questions about this collection should be directed to a Provincial Mining Recorder, Ministry of Northern Development and Mines, 3rd Floor, 933 Ramsey Lake Road, Sudbury, Ontario, P3E 6B5.
Work Type
^;|\ 0)rf **,*^,~s
CUlVjEtVt -r*tX. w'uX VVV\.^M*(^
•i ~bl •e\^sl*~J( Souw U~v)cf j
Units of work Depending on the type of work, 11st the number of hours/days worked, metres of drilling, kilometres of grid line, number of samples, etc.
^ StvfU.*:: m-Svw~T
Associated Costs (e.g. supplies, mobilization and demobilization).
Transportation Costs
Food and Lodging Costs
Cost Per Unit of work
i*l\.j\ /Sn^fU ™
v*- ^ (j - -. ,
[Qff) Total Value of Assessment Work
Total Cost
*2, 0 ^q
V
^^
^(U
U il-
*2-o4^'
Calculations of Filing Discounts:
1. Work filed within two years of performance is claimed at 1009E of the above Total Value of Assessment Work.2. If work is filed after two years and up to five years after performance, it can only be claimed at 50JE of the Total
Value of Assessment Work. If this situation applies to your claims, use the calculation below:
TOTAL VALUE OF ASSESSMENT WORK x 0.50 Total t value of worked claimed.
Note:Work older than 5 years 1s not eligible for credit.A recorded holder may be required to verify expenditures claimed In this statement of costs within 45 days of a request for
verification and/or correction/clarification. If verification and/or correction/clarification is not made, the Minister may reject all or part of the assessment work submitted.
Certification verifying costs:
I, li' * ' E'*' **^t fi u.o^x.^ (j 0 hereby certify, that the amounts shown are as accurate as nay reasonably(please print full name)
be determined and the costs were incurred while conducting assessment work on the lands indicated on the accompanying
Declaration of Work form as I am authorized to make this certification.(recorded holder, agynt. or st?te company position with signing authority)
0212 (06/97)
Ministry of Ministere duNorthern Development Developpement du Nordand Mines et des Mines Ontario
Geoscience Assessment Office 933 Ramsey Lake Road
May 23, 2000 6th FloorSudbury, Ontario
R.V. Zalnieriunas P3E 6B5GLOBEX MINING ENTERPRISES INC.146, 14E RUE Telephone: (888) 415-9845ROUYN-NORANDA, QUEBEC Fax: (877)670-1555J9X-2J3
Visit our website at: www.gov.on.ca/MNDM/MINES/LANDS/mlsmnpge.htm
Dear Sir or Madam: Submission Number: 2.20287
Status Subject: Transaction Number(s): W0060.00217 Approval
We have reviewed your Assessment Work submission with the above noted Transaction Number(s). The attached summary page(s) indicate the results of the review. WE RECOMMEND YOU READ THIS SUMMARY FOR THE DETAILS PERTAINING TO YOUR ASSESSMENT WORK.
If the status for a transaction is a 45 Day Notice, the summary will outline the reasons for the notice, and any steps you can take to remedy deficiencies. The 90-day deemed approval provision, subsection 6(7) of the Assessment Work Regulation, will no longer be in effect for assessment work which has received a 45 Day Notice. Allowable changes to your credit distribution can be made by contacting the Geoscience Assessment Office within this 45 Day period, otherwise assessment credit will be cut back and distributed as outlined in Section #6 of the Declaration of Assessment work form.
Please note any revisions must be submitted in DUPLICATE to the Geoscience Assessment Office, by the response date on the summary.
If you have any questions regarding this correspondence, please contact JIM MCAULEY by e-mail at [email protected] or by telephone at (705) 670-5880.
Yours sincerely,
ORIGINAL SIGNED BYSteve B. BeneteauActing Supervisor, Geoscience Assessment OfficeMining Lands Section
Correspondence ID: 14893 Copy for: Resident Geologist
Work Report Assessment Results
Submission Number: 2.20287
Date Correspondence Sent: May 23, 2000 AssessorJIM MCAULEY
Transaction . First Claim Number NumberW0060.00217 850094
Section:17 Assays ASSAY
Township(s) l Area(s)DELORO
StatusApproval
Approval Date
May 23, 2000
Correspondence to:Resident Geologist South Porcupine, ON
Assessment Files Library Sudbury, ON
Recorded Holder(s) and/or Agent(s):R.V. ZalnieriunasGLOBEX MINING ENTERPRISES INC.ROUYN-NORANDA, QUEBEC
Page: 1Correspondence ID: 14893
MAP SYM6QLOCY
Aerial Cabltway
ando* -. .• •44 ll**1?Vft4
r, pii, PileContour* -t* j t* t 1*11* . ——
Control Point*
Cuiv*rt *-^Falli
F^nc*, H*dg*, _ . ___waitFtctun Out l in (
(C. rilvl ufl A ttVTurtl l l
Moccifl Land f^f " * Lock -x -t Marsh w Swamp *ta *
Mint Htad Frame gj
li l.f t (•.Dull
t.itH T lil
i] 111 t,i,.
4h*n* 144
Road* '
Ml HHHBM l l
l 10 (Kim Ir
Trail lith Hi*
Rapidt
fr ikli l *i nr• it* -1111*11
, Stream, Canal
h tt t
To**! m 9
Lint
PH-" l __ m
Tunni) ^L^J
Util))) PC l i* Wharf ,0otk, Pitr Wooded Ana
AREAS WITHDRAWN FROM DISPOSITION
RA R Q - MINING SIGHTS ONLY
S HO -SURFACE RIGHTS ONLY
MtS -MINING AND SURFACE RIGHTS
DwJir Mo Di* OMMIITlBIt 'K*
ran A mutt MWOIAL WTf i
CLAIMS RELIEVED FROM FORFEITURE OROER OF THE MINISTER OCT 9 1996
MX HU tmtm nnirm HK ni-onm T D pROWtcnHt. IWKIN* our MI* o" t-""*
STWH*ftWn*l*M*W*CT MOwon ND o-r 4/nrtw
THE INFORMATION THAT APPEARS ON THIS MAP HAS BEEN COMPILED FROM VARIOUS SOURCES AND ACCURACY IS NOT GUARANTEED THOSE WISHING tO STAKE MIN ING CLAIMS SHOULD CON SULT WITH THE MININGRECORDER MINISTRY OF NORTHERN DEVELOP WENT AND MtNES FOR AD DITIONAL INFORMATION ON THi STATUS OF THE LANDS SHOWN HEREOF
TISDALE T^WPl01 O
a*/6000 mM
ffi -:hsr:
H*i f 1189897
O L K)•' 11SS896
1238344
J (4.236772
1236009
T" V J ^; - . ,Vi ^
"^ Jj i " J. LT l-i— --— fc •'*'
OOWmN
ADAMS TWP
LEGENDHIOHVUAY AND ROUTE No.OTHER ROADSTRAILS -SURVEYED LINES
TOWNSHIPS, BASE LINES, ETC. — LOTS, MINING CLAIMS. PARCELS, ETC.-
UNSURVEYED LINESLOT LINES — PARCEL BOUNDARY — MINING CLAIMS ETC.
RAILWAY AN D RIGHT OF WAY ^ UTILITY LINES NON-PERENNIAL STREAM -~
FLOODING OR FLOODING RIGHTS : -: SUBDIVISION OR COMPOSITE PLAN "™ RESERVATIONS IJfJ ORIGINAL SHORELINE
UARSH OR MUSKEG C MINES
TRAVERSE MONUMENT
DISPOSITION OF CROWN LANDS
TV?E Of DOCUMENT SYMBOL PATENT SURFACE ft MINING RIGHTS t
SURFACE RIGHTS ONLY —. .. -, *MINING nifiHTSCWLY^ . O
LEASE SURFACE A MINING RIGHTS - BSURFACE RIGHTS ONLY , HMINING RIGHTS Oh L Y -- .B
HCCNCE OF OCCUPATION .. , . . .. W
ORDER IN COUNCIL -. OCRESERVATION .... . . . . — ©CANCELLED .... . .. . .9
SAND ft GRAVEL __ - .. . -- -- S
MOTE MININtt RIGHTS IM fAOCtLl PATIMTiP PRIOR TO MAY C 1*11 VfCTEP IN OHICithAL fATCMTEr *Y THE PUBLIC U*hOt ACT RIO l*TO CHAf Ho HC *9 *LB*EC l
10 M Ml H M
1MO 1IM 1DM
IT"
SCALE 1 2O OOO GRID ZONE i l 7
NOTES
REGISTERED PLAN or 5LIQDIVISION
CLAIM* SHOWN WITHIN THIS ARE SUBJECT TO THE RIGHTS
AND PRIVILEGES GRANTED TO DFLN TE NUNES LTD UNDFR AN EABCMENT CROER QATEO MAY 19, 1
DOMC MWCft. UMITCD SURFACE RIGHTS LEAAC WOSIM
TOWNSHIP
DELOROM N fl ADMINISTRATIVE DISTRICT
TIMMINSMINfDG DIVISION
PORCUPINELAND TITLES/ REGISTRY DIVISION
COCHRANE
Ministry ofNaturalResources
ACTIVATED NOV 24/93
OR.GINAL COMPILATION
JULY I9M
REVISED .G-3993
42A06SW2010 2.20287 DELORO 200