a pilot plant production of a magnesite concentrate
TRANSCRIPT
42A06SW0002 2.13510 DELORO 010
A Pilot Plant Production of
A MAGNESITE CONCENTRATE
from a sample of the Timmins deposit of
MAGNESIUM REFRACTORIES LTD.
Progress Report No. 4
Project No. L.R. 3778
NOTE:
This report refers to the samples as received.
The practice of this Company in issuing reports of this nature is to require the recipient not to publish the report or any part thereof without the written consent of Lakefield Research.
LAKEFIELD RESEARCHA DIVISION OF FALCONBRIDGE LIMITED
December 12, 1989
42A06SW0002 2.13510 DELORO
TABLE OF GC
Page No.
010C
INTRODUCTION.
SUMMARY
3
4
1. Bench Tests .......................1.1 Feed Ore.................1.2 Metallurgical Results.
2. Pilot Plant Tests ...................2.12.22.32.3.12.3.22.3.3
Feed Ore ................................Grinding .................................Flotation .................................Circuit Configuration ...............Metallurgical Results................Magnesite Concentrate Quality
SAMPLE PREPARATION AND DISPOSITION
EQUIPMENT DESCRIPTION ........................
TEST DETAILS .............................................
444
5556689
10
11
13
Table of Contents
INTRODUCTION
Mr. J. A. Bates of Magnesium Refractories Ltd. and Mr. R. A. Elliott, Consultant,
requested that a high quality magnesite concentrate be produced from approximately 1.0 tonne
of ore from Timmins, Ontario. In addition to the magnesite concentrate, quartz and talc
concentrates were requested to be produced.
Low silica content in the magnesite concentrate was very important. The
recovery of magnesite was of secondary importance. Details of the testwork are contained in this
report.
The testwork was observed and directed by Mr. R. A. Elliott.
LAKEFIELD RESEARCH
I
R.S. Salter General Manager
A.C.T. Bigg, P. Eng. Senior Engineer
R.H.O. Wagner, P. Eng. Project Engineer
Introduction
SUMMARY
•L. Bench Tests
1.1 Feed Ore
The ore sample was crushed in stages to a nominal 10 mesh passing size. Ten, 2 kg.
charges were riffled out for flotation testwork. Some of these charges were further roll crushed to
minus 20 mesh in preparation for bench grinding and flotation work.
One sample was riffled out and the head assayed:
Total Iron (Fej)
Acid Soluble Iron (FeSol)
Lime (CaO)
Silica (SiO2)
Acid Insolubles (Insol)
3.9407o as (F62O3) = 5.630/0
3.4707o
28.50/0
42.60/0
1.2 Metallurgical Results: Table 1
Test
1
2
Conditions
Grind
Min
20
7.5
o/o
-200
91.2
66.2
PH
9.2
6.5
DF 250
.045
-
Ib
MIBC
-
.105
s/ton Armac
T
.24
.09
DoumacT
.03
.39
Magnesite Concentrate Product
Wt.%
61.1
26.2
Assayo/o
Insol
13.6
6.44
o/o
Fe20s
7.7
3.0
Dist"/o
Insol
21.3
3.8
ributiono/o
F62O3
86.0
13.9
Summary
2, Pilot Plant Tests
2.1 Feed
The pilot plant feed was stage crushed to nominally 10 mesh. The pilot plant
feed ore size distribution is presented in Table 2.
Table 2: Ball Mill Feed Size Distribution
i
m: a
3.3272.3621.6511.1680.8330.5890.4170.2950.2080.1470.1040.0740.0530.038
Mesh(Tyler)
6810142028354865100150200270400-400Total
Weight Grams
0.010.823.060.865.558.249.239.738.135.828.525.423.117.558.0533.6
Vo WeightInd.
0.02.04.311.412.310.99.27.47.16.75.34.84.33.310.9
100.0
Cum.
0.02.06.317.730.040.950.157.664.771.476.881.585.989.1100.0
-
Passing
100.098.093.782.370.059.149.942.435.328.623.218.514.110.9
--
i Si":
e
2.2 Grinding
The small Sala ball mill was charged with 250 kg of ceramic balls to grind the ore
without discoloration. The ball mill was in closed circuit with a 178 micron (80 mesh) aperture
screen. This configuration as in Figure 1 remained constant for the entire run.
Feed Ore- Ball Mill Screen Product
Figure 1. Grinding Flowsheet
Summary
Table 3: Grinding Circuit Summary
TestNo.
123
Averages
FeedRatekg/hr
495051
50
Ball Mill DischargePulp, density
9/L
142014311441
1431
"/o
-200
mesh
73.773.775.1
74.2
Product SizeKBO urn
Feed
100411121123
1080
ScreenU/S
858782
85
NetPowerConskWh/t
17.215.915.0
16.0
WorkIndex
(Metric)Wl
22.420.618.5
20.5
2.3 Flotation
2.3.1 Circuit Configuration
For pilot plant tests PP1 and PP2 the flotation circuit was as in Figure 2. A
conditioner was added in PP3 to stabilize the pH to the flotation circuit and is illustrated in Figure
3.
Summary
Flotation Feed TALC FLOTATION
-*J| Rougher IV
TALC CLEANER
CONC.
QUARTZ
FLOTATION
Tailings
QUARTZ
CONC.
MAGNESITE
Fig. 2 PPI and PP2 Flowsheet
Flotation Feed
QUARTZ
FLOTATION
QUARTZ
CONC.
TALC CLEANER
CONC.
MAGNESITE
CONC.
Fig. 3 PP3 Flowsheet
Summary
2.3.2 Metallurgical Results
The flotation conditions are summarized in Table 4.
Table 4: Flotation Conditions
No.
123
F MIBC
.54
.50
.24
Reagents It ArmacT
.11
.11
.07
js/ton DuomacT
.09
.09
.08
Talc Rougher
PH
5.56.16.1
Quart 1
(feedpump)
PH
4.55.95.6
:Rot 2 PH
6.57.1
gher ( 3
PH
7.47.07.3
Dells 4
pH
7.57.07.6
Density Screen US
g/L
111211331160
T (n
Talc
678
me nin) Si02
789
* Armac T additions were to: Quartz Rougher Feed Pulp and Cell 2
Duomac T additions were to: Cells 3 and 4
The flotation magnesite production is summarized in Table 5.
Table 5: Quartz Tailing (magnesite cone) Production
Test No.
123
Avg. Magnesite
Conc.(calc)
Weightkg
106106149
120
Weight
40.630.441.7
37.6
HOSol
97.894.997.2
96.6
As:
3.85.44.4
4.5
says "/o FeSol
2.553.773.36
3.2
Si02
1.283.871.84
2.3
HCISol
67.449.868.4
"/o Dist
28.637.647.0
61.9
ibution FeSol
29.838.150.6
37.7
SJO2
1.9-
2.9
39.5
The weight "/o of magnesite concentrate is: 37.60X0 , and the silica content is approximately
2.307o.
Summary
The talc cleaner concentrate production is summarized in Table 5.
Table 5: Talc Cleaner Concentrate Production
Test No.
1 2 3
Arithmetic Avg (calc)
Weight 0Xo
30.3 31.5 26.5
29.4
HCI Sol
5.55 5.94 4.97
5.49
Assays 0/
1.1 1.2
1.2
i Fe Sol
0.56 0.52
0.54
"/o
HCI Sol
2.9 3.2 2.2
2.8
Distributk Fe203
5.5 6.1
5.8
)n Fe Sol
3.5 3.7
3.6
2.3.3 Magnesite Concentrate Quality
A quality of magnesite concentrate with less than 1 0X0 SiO2 was not achieved by
bench or pilot plant test using these test conditions.
Suggestions to reduce the silica content:
1) Grind the feed ore to 10007o minus 100 mesh to grind down coarse quartz
particles which did not float
2) Extend the talc flotation time to remove the talc which hindered the
quartz flotation
3) Use pine oil as the frother to enhance talc and quartz removal
4) Evaluate collector
Summary
10
SAMPLE PREPARATION AND DISPOSITION
Approximately, one tonne of uncrushed ore was received at Lakefield Research
on August 28,1989, as LR 8932638. The ore was crushed to minus 10 mesh and a head sample
was removed. The following products are at present held in storage:
No. of Drums
Quartz Cone PP3 1
1 Tab Cone PP3 1
Talc Tails PP3 1
\ Magnesite Cone PP3 1
Quartz Cone (oven dried) PP1 and 2 1
Talc Cone (oven dried) PP1 and 2 1
Talc Cone (filter cake) PP1 and 2 1
Magnesite Cone (oven dried) PP2 1
2 boxes Test and Assay Rejects
l box Test Charges
Sample Preparation and Disposition
11
EQUIPMENT DESCRIPTION
Small Sala Mill
The Sala ball mill is an overflow-discharge mill with inside dimensions of 635mm
diameter and 1090mm length and a total volume of 0.34m3 . The Linatex rubber lining is smooth
with six equally spaced litter bars 25mm high by 50mm wide. The mill is on rubberized rollers,
which are driven by torque-arm speed reducers and V-belts from two 3.7KW electric motors. The
mill speed is 36.8 r.p.m. or 690Xo of critical speed.
g)___Power Calculations
The total power is measured by a Sangamo Type KYWP meter, equipped with a
rate meter and a cumulative meter. Power readings are based on instantaneous timed rate
readings of the disc in the meter. The time interval during which the rotating disc made a
specified number of revolutions is measured with a stopwatch. A nominal efficiency of 950Xo is
assumed for the power transmission. Thus the gross power is 950Xo of the total power. The no-
load power is calculated in the same manner, but with the mill operating empty. Net power is
equal to the gross power minus the no-load power.
760mm Sweco Screen
The 760mm diameter Sweco Vibro-Energy Separator was used to classify the
Sala mill discharge. The screen used was:
Aperture in micrometres
80 mesh 178
Denver 20L Conditioner
The tank dimensions are 305mm diameter by 380mm depth with a side outlet for
20L capacity. The agitation is imparted by two opposed-pitch three and two bladed axial-flow
impellers of 100mm and 76mm diameter rotating at a shaft speed of approximately 1150 r.p.m.
Equipment Description
l 2
The drive is from a 0.75KW motor through V-belts and pulley. This conditioner was used ahead of
the Talc flotation circuit to modify the pH feeding the flotation circuit.
Denver Sub-A No.7 Flotation Cells
Two poly-urethane lined Denver Sub-A No.7 cells were used in the Talc flotation
circuit. Each cell has a volume of 28L and the mechanism is driven through V-belt and pulleys by
a 0.37KW motor. Air is self induced.
Denver Sub-A No. 5 Flotation Cells
Each cell has a volume of 7.7L and the mechanism is driven through V-belts and
pulleys by a 0.37KW motor. Air is self induced. The cells are poly-urethane lined and grouped in
a bank of four cells in series. These cells were used for the quartz flotation.
Equipment Description
13
TEST DETAILS
Test Details
Bench Test No. 1
Purpose:
Grinding:
To determine the j/jxirt; and 5otafcn behaviour of the ore sample.
2 kg of minus 20 raesft ere weee ground ter 21 minutes in the Abb6
porcelain mill wSh 2C* *? ^ cerarc pefcties.
Flotation: The ground pulp was iidihiereti me the Denver 2,000 gram
flotation machine anc tt *tfune was adjusted with tap water.
Concentrate 1: The late was floated wtr IF 250.
Concentrate 2: Following the tafc fctaDcr. tte cu*p ransferred to a Denver 1.000
gram flotation madve anc ocrcitioced wth Amiac T (tallow amine
acetate) and DF 251
Concentrate 3: A Doumac T (tafo* oamne decetase; addtion was used to float more
silica. Frothing oxxSxrs *ere TC* tieai. the froth was a creamy
pink and carried rnxr ^TTaenat
Reagent Additions: Pounds per ton of cnxs ore
Concentrate No.
1 2 3
DF 250
.035
.01
AimacT Doumac T
.09
.15 -13
Time, Minutes Cond. Frothing
1 12 1 6 1 12
Test Details
15
Test No. 1
Purpose: To produce magnesite product
Procedure: Stage flotation of Talc and Silica from Magnesite.Mixed up a 30Xo solution of Armac T 1 mL :^ 15 g/t Mixed up a 30/* solution of Doumac T 1 mL = 15 g/t
No pH modification
Feed: 2 kg charge minus 20 mesh
Grind: 21 minutes with 20.4 kg ceramic pebbles
Conditions: DF250 frother. 1dp = 2.5 g/t
Stage
GrindConditionCon 1 - Talc ConeCon 2 - SiO2
Con 3 -SiO2
Reagents Added, grams per tonne
DF250
-17.55.0
5.0
ArmacT
.-
1515151515151515-
DoumacT
.---.-----15
Time, minutes
Grind
21.0.---.------
Cond.
10111111111
Froth
12222222222
PH
9.2-----------
StageFlotation Cell Speed: r.p.m.
02-2000/after first 12 minutes switched to D1-1000 1800
Test Details
TesL 1: Metallurgical Results.
Metallurgical Results
16
pH r 9.2
Product
Cone 4 - MgCOaCone 3 - SiO2Cone 2 - SiO2Cone 1 - Talc
Head (calc.)
Head (assay)
Weight "/oInd.
61.13.44.4
31.1
100.0
Cum.
61.164.568.9
100.0
Assays "/oAcidInsol
13.655.270.283.5
39.2
42.6
FeT
5.383.782.400.98
3.83
3.94
Fesol
5.333.532.270.63
3.68
3.47
"/o D istributionAcidInsol
21.34.77.8
66.2
IOO.O
Fei
86.03.32.78.0
100.0
Fe so i
88.83.22.75.3
100.0
Screen Analysis
A 200g composite sample of product was made up using the Ind. weight 0X0 of the
four products.
Project No: 3778 Test No:
Product: Comb. Prod.
M.B.
Microns
0.074
Mesh
200-200Total
WeightGrams
17.7182.3200.0
?0 WeightInd.
8.991.2100.0
Cum.
8.9100.0
-
Passing
91.2.-
Test Details
17
Bench Test No. 2
Purpose:
Grinding:
Flotation:
Repeat test No. 1 with a coarser grind and to modify the pH to 6.5, anduse MIBC as the f rather.
7.5 minutes at 66*^ solids.
The pH was conditioned from 9.1 after grinding to 6.5 with additions of100 g/L sulphuric acid. Use MIBC frother as required. All stages werefloated in the 2,000 gram Denver Cell.
Reagent Addition: Pound per ton of crude ore
Concentrate No.
1234
MIBC
.095-
.01-
ArmacT
.09--
Doumac T
.-
.27
.12
Time, MinutesCond. Frothing
2 251 61 161 4
Test 2: Metallurgical Results at 0 ^=6.5
Product
Cone 5 - MgCC-3Cone 4 - QuartzCone 3 - QuartzCone 2 - QuartzCone 1 - Talc
Head (calc.)
Head (assay)
Weight "/0Ind.
26.211.15.8
26.430.5
100.0
Cum.
26.237.343.169.5
100.0
Assays "/oAcidInsol
6.446.0274.137.692.4
44.8
42.6
FeT
2.104.363.609.300.76
3.94
3.94
FeSO i
1.513.523.019.390.29
3.54
3.47
07o DistributionAcidInsol
3.81.59.6
22.262.9
Fer
13.912.35.3
62.65.9
Fe so i
11.211.14.9
70.32.5
Screen Analysis
A 100 gram composite sample was made up by combining by Ind. weight "/o a portion of the five products.
Test Details
18
Product: Combined Product Test No:
Microns
208147104745338-38
Mesh
65100150200270400-400
Total
Weight Grams
1.56.411.614.314.710.940.6100.0
o/o WeightInd.
1.56.411.614.314.710.940.6100.0
Cum.
1.57.919.533.848.559.4100.0
-
Passing
98.592.180.566.251.540.6
--
Test Details
19
Test No. 2
Purpose: To float Talc and Silica from Magnesite
Procedure: Mix 1 0X0 solution of Armac T 3 mLs ': 15gA Mix 1 0X0 solution of Ooumac T
Modify pH from 6 to 6.5 with 100 g/L sulphuric acid, 2 mLs = 100 g/t Use MIBC frother as required, 1 dp * 2 .5 gt
Feed: 2 kg charge minus 20 mesh, add 1030 mLs H2O, 20.4 kg ceramic balls
Grind: 660Xo solids - 7.5 minutes
Conditions: Float in D2 cell.
Stage
GrindConditionCone 1 -TalcCone 2-SiO2
Cone 3-SiC-2
Cone 4 - SiC-2
Reagents Added, grams per tonne
MIBC
48.--.--5----------
Armac T
-~.151515-------------
Doumac T
-.--.
15151515151515151515151515
H 2SO4
480790130
-.
9070
-5095
----
100---
Time, minutes
Grind
7.5-0------------0--
-
Cond.
1-1111111111111111
Froth
25222222222
1.51.51.51.01.01.01.0
pH
9.16.5
.---
6.2-
5.5-----
6.26.2
---
Flotation Cell Speed: r.p.m.
D2 1900
Test Details
Test No. PP-1
20
1. Purpose: To mechanically check the circuit and to produce a high quality
magnesite concentrate.
2. Adjustments: M IBC was added as required.
Equal dosages of Armac T and Doumac T were applied to the circuit.
Frequency: Sampling was from 1:30 to 4:00 p.m. every 30 minutes.
Flowsheet: See the following page.
Equipment List: Small Sala Ball Mill, 635mm diameter x 1090mm long.
760mm diameter Sweco vibro-energy screen, 80 mesh deck.
2 x poly-urethane lined Denver Sub-A No. 7, 28L, 0.37kW motor
4 x poly-urethane lined Denver Sub-A No. 5, 7.7L, 0.37 kW motor.
3. Results: Magnesite specifications not met.
Test Details
Crushed Ore
21
fl 60 mesh l
^
TALC FLOTATION QUARTZ FLOTATION
Talc Cleaner 11-^ Tailings
TALC CLEANER CONC.
PILOT PLANT 1 FLOWSHEET
MAGNESITE CONC.
Test Details
22
4-
TRST PP]
1.1.1. Sal! Kill Report
Peed:
Feed Rate:
Classifiration:
Hill Speed:
Ceraaic Ball Load:
Pulp
Kill Discharqe:
Undersize:
Input Pover:
Fffirtency:
Avpraqe Pover:
Net Pnwer Tonsmption:
K80 Peed:
K80 Product:
Work Index (lettic):
Hinus i. inn ore
W k q./h
Sweco Screen
36.8 r.p.i.
60 lesh deck 178 nicron aperture
Total
69 \ of critical speed
125 kg125 kq
250 kq
1420 q/L 46
26.3 \ p lus 200 lesh50.4 t linus 400 nesh
\ solids Solids S.G. 2JO
sees for 3 disc revolutions2.03 ki
95 \
Gross No Load Net
1.93 ktfl.O'l kBG.84 kV
17.16 kWh/t
1004 aicrons
85 sicrons
22.4
Test Details
I 23
3.2.Reaqent Additions PPI
Point of Addition
Talc RouqherTalc RouqherQuartz Rougher Feed PuspQuart? Rouqher Feed PuipQuartz Rouqher Cell 1Quartz Rouqher Cell 3Quartz Rouqher Cell 4
Reaqent Naie
H2S(M HIBC HIBC ARMAC T ARKAC T DOUHAC T OOUHAC T
Solution Strenqth
t
Rate iL/ain q/t
or dr/iin
1011
0.1O.I0.1O.I
21.7??:01.0
26.017.520.317.0
2902269
1232212521
FeedRatet/h
pH, Pulp Density and Tenperature
ProductPulp density
q/LTenperature
'C
Rail Mill nisrharqe Bal l Hill Screen Undersize Talc VounherQuartz Rouqher Feed Puip Quartz ?ouqher Cell 2 Quartz Rouqher Cell 3
Pouqher Cell 4
H20 1112
5.5 4.5
7.5
Test Details
24
Project No: 3778
Product: B M Screen Under Size Test No:
AR
PP-1
Microns
208147104745338-38
Mesh
65100150200270400-400Total
Weight Grams
0.14.99.114.312.512.754.4108.0
*7o WeightInd.
0.14.58.413.211.611.850.4100.0
Cum.
0.14.613.126.337.949.6100.0
-
Passing
99.995.486.973.762.150.4
--
Product: B M Feed Test No: PP-1
Microns
3,3272,3621,6511,168833589417295208147104745338-38
Mesh
6810142028354865100150200270400-400Total
Weight Grams
0.02.08.019.922.320.217.514.913.012.410.110.46.75.620.7183.7
9fc WeightInd.
0.01.14.410.812.111.09.58.17.16.85.55.73.63.011.3
100.0
Cum.
0.01.15.416.328.439.448.957.064.170.976.482.085.788.7100.0
-
Passing
100.098.994.683.771.660.651.143.035.929.123.618.014.311.3
--
Test Details
25
3.4.Assays PPI
Product
Ball Kill Feed Screen Undersize Talc "leaner Cone Talc Cleaner Tai l Talc RouqtiT Cone Talc Rougher Tail Quartz Concentrate Quartz Tai linn Built Haqnesite(Grab)
3.5.Netdlliirqir;)l Balance Product
Talc Cleaner Concentrate Talc c leaner Tail Talc Snuqher Conc(calc)
(assay)
Talc Rougher Cone Talc Rmjnher Tail B.H. F-ed(calc)
(assay) ilndemzolassavi
Qiprfz Concent rate Quartz Tailinq Talc Rnuqher TaiUrslc!
(assay!
Veiqht \
30.291.94
32.22
32.2267.78
100.00
21.2340.5567.78
Assay \HC1 PeSol totai
58.8 i. 78S9.llS. 5520. iS. 4}83.762.797J 2.6799.0 2.66
Assay \HCl FeSol total
5.5520.26.436.43
6.4183.758.8 3.7858.8 3.7859.0
62.797.8 2.6783.783.7
f e S i 02Sol
3.47 27.3
2.55 1.282.41 1.5?
Fe Si02So!
3.47 27.33.47 27.3
2.55 1.28
l Distribution HCl Fe ?e Si02 Sol total Sol
2.9 0.7 3.5
3.5 96.5
100.0 100.0 100.0 100.(
29.067.496.5
29.8
SUHHARY leiqht t
FINAL PRODUCTS
Talc Cleaner Concentrate 30.29 Talc Cleaner *ail 1.94 Quartz Concentrate 27.23 Quartz Tailinq (Haq Cone] 40.55 Ball Hill Feedfcalc.) 100.00 Ball Hill Feed(assay)
Assay tHCl Fe Fe Si02Sol total Sol
5.5520.262.797.8 2.67 2.55 1,2858.8 3.78 3.47 27.358.8 3.78 3.47 27,3
l Distribution RC1 Fe Fe Sol total Sol
2.9 0.7
29.0 67.4 23.6 29.8
100.0 100.0 100.0
Si02
1.9 100. 0
Test Details
Test No. PP-2
26
1. Purpose: To produce a high quality magnesite concentrate.
2. Adjustments: Additional pH monitoring equipment was brought into service.
2.1 Frequency: The sample period was for the last 3 hours of the test, every 30
minutes.
2.2 Flowsheet: See next page
2.3 Equipment List: Added two portable pH meters.
3. Results: The silica content was higher than PP1 and the weight recovery to
concentrate was lower than in PP1.
Test Details
27
Crushed Ore
fl 80 mesh i
TALC FLOTATION
TalcClMiwr It*- Tailings
QUARTZ FLOTATION
Rougher
^^^^^^h
TALC CLEANER CONC. QUARTZ CONC.
MAGNESITE CONC.
PILOT PLANT 2 FLOWSHEET
Test Details
28
TEST m
3.1.1. lall K ill Report
Feed:
Peed Rate:
Class; ficaMnn:
Hill Speed:
i" B"11 Load:
Pulp Densities:
Hill Oisrharqe:
Screen tlnd-r? ize:
Input Power:
Drive Efficiency:
Averaqe Power:
Net ?over Consuiiption:
Ul) Feed:
MO Product:
Index (letric):
Minus 3. lil ore
50 tq/h
IS. 8 r .p. i.
Total
lies h deck 178 aicron aperture
6s l of critical speed
kq kq
kq
HJ1 q/L 47
26.3 \ p lus 200 sesh 'S.5 \ K ilius 400 lesh
11.SO sees for 1.98 W
solids Solids S.G. 2.80
3 disc revolutions
IS
Gross No Load Net
1.88 kV1.09 kYfi.79 kY
15J9 ktfh/t
1112 nicrons
87 licrons
20.6
Test Details
29
Additions PP2
Point of Addition ReagentNaie
Talc Rougher H2S04Talc Rooqher HIBCQuartz Rougher Feed Putp H2S04Quart? Rouqher Peed Puip HIBCQuartz Rouqher Peed Puip ARHAC TQuartz Rmjqher fei] 2 ARHAC TQuarts Rouqher Co! l ] OOUMAC TQuartz Pmiqher Cell ^ D OdHAC T
Solution Strength
Rate L/iin q/t
ordr/Bin
51S1
0.10.10.10.1
}fl.)20.0.4.80.7
24.720.022.113.3
2312241290
830242716
FeedRatet/h
0.050
pH, Pulp Density and Tepperature
ProductPulp density
q/tTeiperature
pH
Ball Hill DischargeSail Hill Screen UndersizeTalc RouqherQuartz Rougher Feed PuipQuartz Rouqher Cell 2Quartz Rouqher Cell 3Quartz Rougher Cell 4
14311133
(.1 5.9 6.5 7.0 7.0
Test Details
30
3.4.Assays PP2
Product
3.)l! Hill feed Screen 'inri-rsiie Talc Cleaner Cnne Tale Cleaner Tai l Talc Rnnqher Cone T^M- Rouqher Tai l Quart: Concentrate Ouar f z Tail:nq
Cone [Grab 1:10 p.*.l
Assay \HCl' Pe Pe 5i02 Sol total Sol
5S 59 S. 21 6. 83 73 94 95
.n
.0 94 .0 66 .4 .8 .9 .8
3. 3. 0. 2. 0. 5. 4. 3.
47 80 74 22 72 28 76 82
i 3 (1 2 0 5 4 3
.71
.84
.56
.19
.48
.^
.77
.77
12 20 3.
.9
.2 87
3.5.Metallurgical Balance Product Seiqht \
Talc Cleaner Concentrate 31.52 Talc Cleaner Tail 1.58 Talc Rouqher Cone(ea l r! .'3.10
(assay!
Talc Rouqher Cone 33.10 T^r Pouqhor Tail 66.90 B.M. Peedlcalc) 100.00
(a5?ayj Se iJ'Shelassayj
Quart'7 Concentrate 36.46 Quartz Tailinq 30. H TS!I- Pnnqhpr TaiHcalc) 66.90
(assay)
SUMMARY tfeiqht t
FINAL PRODUCTS
Talc Cleaner Concentrate 31.52 Talc Cleaner Tail 1.58 Quartz Concentrate 36.46 Qiiart7 TailinqfHaq Cone) 30.M Ball Mill Peed(calc) 100.00 Ball Hill Peedfassay)
Assay \ HCl PeSol
5.216.fi.
6.8]585859
73948383
94.066(6
66.4.0.0.0
J.q.4.4
AssayHClSol
5.2173945858
94.0.8.9.0.0
total
0200
0s33J
4
345
\Pe
.74
.22
.81
.72
.72
.28
.77
.47
.80
.76
.82
.33
.28
Pe Si02Sol
0.2.0.0.
0.5.3.3.3.
4.3.4.5.
56196448
4839 12.9767184
77 20.277 3.8732 12.7739 12.90
Pe S102total
024333
.74
.22
.76
.82
.17
.47
Sol
0.2.4.3.3.3.
561977 20.277 3.871071
\ Distribution HCl Pe PeSol
303
396
105
464996
\
.2
.6
.8
.8
.2
.0
.4
.8
.2
total
5.0.6.
6.93.
100.
56.37.93.
583
370
167
Sol
3.0.4.
4.95.
100.
57.38.35.
572
280
713
DistributionHClSol
30
4649
100
.2
.6
.4
.8
.0
Petotal
5.0.
56.37.
100.
58160
PeSol
3.0.
57.38.
100.
cj
7710
Test Details
3 l
Project No: 3778
Product: B M Screen Under Size Test No:
RC
PP-2
Microns
208147104745338-38
Mesh
65100150200270400-400Total
Weight Grams
0.15.211.215.116.913.058.5120.0
7o WeightInd.
0.14.39.312.614.110.848.8100.0
Cum.
0.14.413.826.340.451.3100.0
-
Passing
99.995.686.373.759.648.8
--
Product: B M Feed Test No: PP-2
Microns
3,3272,3621,6511,168833589417295208147104745338-38
Mesh
6810142028354865100150200270400-400Total
Weight Grams
1.95.614.635.836.130.425.020.319.918.415.015.810.79.1
33.0291.6
7o WeightInd.
0.71.95.012.312.410.48.67.06.86.35.15.43.73.111.3100.0
Cum.
0.72.67.619.932.242.751.258.265.071.376.581.985.688.7100.0
-
Passing
99.397.492.480.167.857.348.841.835.028.723.518.114.411.3
--
Test Details
Test No. PP-3
32
1. Purpose: Same as the previous test.
2. Adjustments:
2.1 Frequency:
2.2 Flowsheet:
During the last two hours the level of MIBC frother was decreased in
an effort to control the froth condition and increase the weight
recovery to magnesite concentrate.
During the last hour the Armac T reagent dosage to quartz rougher
was decreased to increase recovery to magnesite concentrate.
The circuit was sampled from 2:00 to 4:00 p.m. every 30 minutes.
See next page
2.3 Equipment List: A 20L Denver conditioner was added in front of the Talc circuit.
3. Results: Reducing the reagent levels increased the weight percent recovery of
magnesite and insolubles.
Test Details
33
Crushed Ore
TALC FLOTATION QUARTZ FLOTATION
Talc Cleaner |}-*- Tailings
TALC CLEANER CONC.
PILOT PLANT 3 FLOWSHEET
MAGNESITE CONC.
Test Details
34
TEST PP3
3.1.1. Ball Hill Report
Foxl:
Feed Rate:
fUssif ication:
Hill Speed:
Ball Load:
Pulp Densities:
Mill Discharqe:
Screen Undersize:
fnpnt Pnwer:
Drive Efficiency:
Averaqe Power:
Het Pover Consuiption:
K80 Feed:
K80 Product:
Vork Index (letric):
lHinus 3.3*s ore
51 kq/h
Sveco Screen
36.8 r.p.i.
-38*142511-25iiU9n
Total
q/L
lesh deck 178 licron aperture
69 \ of critical speed
125 kq125 kg
250 kq
48 X solids Solids S.G. 2.80
24.9 t plus 200 iesh48.6 \ l inus 400 iesh
19.t? sees for1.95 kH
3 disc revolutions
95 V
Gross No Load Net
US k v1.01 kV0.76 ktf
14.98 kBh/t
1123 nicrons
82 licrons
18.5
Test Details
i."-'
l: 35
i.2.R*3qent Additions PPj
Point of Reaqent Ha ne
Pnuqhcr Conditioner H2SCMTalc Roiiqher Conditioner H!RCQuartz Rouqhet Peed Puip H2SCHQuart: Rougher Feed Pu*p ARHAC TQuart? Rouqher Cell 1 A RHAC TQuartz Pnuqher Cell l OOUKHC TQuartz Router Cell ( DOUHAC T
Solution Rate Strength nL/uin g/t
\ o r dr/iin
S1s
0.10.10.10.1
16.010.013.512.016.016.016.3
941119800
14191919
PeedRatet/h
0.05L
pu, Pulp Density and Temperature
ProductPulp density
q/L pHTenperatare
'C
Ball Mill Discharge Ball Hill Screen Undersize Talc Rougher Quartz Rouqher ?Vcd Quartz Rouqher Cell Q'Mttz Rouqher Cell Quartz Rougher Cell Tai l
miIHO
^
6.1 S.fi 7.1 7.3 7.6 7.6
Test Details
36
M.Assays PP3
Product
Ball Hill PeedScreen 'JndersizeTak Cleaner ConeTalc Cleaner TailTalc Rougher ConeTalc Rougher TailQuartz ConcentrateQuartz TailingKaqnesite Cone (Grab 4:15 pi.)
1.5.Hptal'urnical Balance Product
Talr Cipher Concentrate Talc Cleaner Tail Talc Rougher Conc'calc)
(assay)
Talc Rounder Cone Talc Rougher Tail 8.K. Feed(calc)
(assay) .Se U
Quartz Concentrate Quartz Tailing Talc Rouqher Tail(calc)
(assay)
SUHHARY
FINAL PRODUCTS
Talc Cleaner Concentrate Talc Cleaner Tail Quart? Concentrate Quartz Tailinq(Haq Cone) Ball Hill Peed(calc) Ball Hill Peed(assay)
Height
7.61 H.70
33.7056.30
100.00
24.5641.7466.30
Height \
A3S3Y V
HCl FeSol
59604.228."4649782
.3
.S97.S93.9.0.2..1
AssayHC!Sol
4.
228.8.
8.84
59
5960
64
978484
17.S
91
93
13.9.1
.3
.fi
.(1
.2
.9
.9
total
330104
43
\Pe
.51
.72
.87
.55
.98
.88
.91
.11
total
01l0
0437 J
1
4
334
.87
.55
.02
.98
.98J8.57.51.72
.91
.11
.78
.88
Pe Si02Sol
330104
43
.37
.60
.52
.51
.72
.97
.79
.36
Pe
27.28.
1 7
31.1.8
Si02
71
434
Sol
nln0
0433
4334
.52
.51
.74
.72
.72
.97
.54
.373.6
.79
.36
.89
.97
13.27.27.28.
31.
4971
31J412.13.
84
Assay \HCl "Pe Pe Si02Sol total Sol
26.0?7.6]
24.5641.74
100.00
4.97 11.87 0.5272.5 1.55 1.5164.5 4.91 4.79 31.397.2 3.11 3.36 1.8459.3 2. 85 2.8359.3 3.51 3.37 27.7
2.2 6.1 3,77.9 3.2 3.1
1 26.5 43.7 42.5 29.068.4 47.0 50.6 2.9
lOfl.fl 100.0 100.0-
\ D istributionHClSol
2.22.95.1
5.194.9
100.0
26.568.494.9
Petotal
6.13.29.3
9.390.7100.0
43.747.090.7
PeSol
3.73.16.9
6.993.1
100. 0
42.550.693.1
Si02
31.8103.0
29.02.9
31.8
t DistributionHClSol
2.22.9
26.568.4
Petotal
6.13.2
43.747.0
PeSol
3,73.1
42.550.6
Si02
29.02.9
Test Details
37
Project No: 3778
Product: B.M. Screen undersize Test No:
AR
PP-3
Microns
208147104745338-38
Mesh
65100150200270400-400Total
Weight Grams
0.01.9
12.618.919.715.865.2134.1
9fc WeightInd.
0.01.49.414.114.711.848.6100.0
Cum.
0.01.4
10.824.939.651.4100.0
-
Passing
100.098.689.275.160.448.6
--
Product: Ball Mill Feed Test No: PP-3
Microns
3,3272,3621,6511,168833589417295208147104745338-38
Mesh
6810142028354865100150200270400-400Total
Weight Grams
1.23.914.629.729.825.321.517.117.215.813.012.010.27.8
25.9245.0
Jo WeightInd.
0.51.66.012.112.210.38.87.07.06.45.34.94.23.210.6
100.0
Cum.
0.52.18.0
20.232.342.751.458.465.471.977.282.186.289.4100.0
-
Passing
99.597.992.079.867.757.348.641.634.628.122.817.913.810.6
--
Test Details
38
Calcine Production Test C1:
19 kg of sample from PP2 were calcined by the following procedure:
1. Approximately 2 kg of magnesite was placed in a tray.2. The tray was transferred to a high temperature muffle preheated to 7500C.3. The sample was calcined at temperature for a minimum of 6 hours.4. The tray was removed from the furnace and the contents air cooled.
HCI Leach Test No. 1:
Leaching of Quartz Concentrate from PP2
1. 1 kg of PP-2 quartz concentrate was pulped with 2L of water. The pulp was constantly mechanically agitated during leaching process.
2. 2L of HCI was slowly added (approximately 15 mL/minute). A strong froth was created when the acid contacted the pulp.
3. The mixture was heated to a gentle boil and allowed to continue boiling until reaction was complete. Upon completion the residue was allowed to settle to the bottom of the 4L beaker.
4. The residue was filtered and washed three times. The residue was then dried and assayed.
Results The acid leach residue assayed Q .0% Fe and 63.lVo SiO2-
Calcine Production Test C2
The Jones middling and non-mags of Test No. 3 (21.1 kg were used to produce calcine by the same procedure as in C1).
Test Details
39
Hydration of MaQ
1. Approximately 10 kg of calcined MgO were combined and riffled in 1 kg charges.
2. Separate charges were hydrated by placing the MgO powder in a pyrex dish with
approximately 440 mL of water. This mixture was placed in a drying oven set at
2500F for approximately 12 hours. The average weight gain of the dried powder
was 200Xo.
3. The hydrated 1 kg charges were ground in pebble mills at a rate of 2.5 hours per kg
of powder. This gives a surface area of approximately 6400 cm27g.
Sample
Head 2 hr Grind 5 hr Grind
Specific Gravity
3.84 2.63 2.64
Specific Surface Area crr^/cm2
16246 15564 16909
Surface Area cm27gm
4230 5918 6405
Calcine Production Test C3
to S.3% SiOa-
Wilfley tabling was done to reduce the silica content of C2 hydrated calcine material
Nov. 13/89
Sample3778-3B
Wt = 2.8kg7 hour grindHydrated Calcine
SpecificGravity
2.48
Specific Surface Areacrr^/cm3
12189
Surface Areacrr^/gm
4915
Test Details
40
This was reground again for 3 hours with 23.0 kg of ceramic balls, to increase the
surface area. The resultant 2.5 kg charge was used by R. A. Elliot for further testwork.
Nov. 14/89
Sample 3778-3B
Wt = 2.5kg 10 hou r grind Hydrated Calcine
Specific Gravity
2.45
Specific Surface Area cm27cm3
12821
Surface Area cm27gm
5233
LAKEFIELD RESEARCHA Division of Falconbridge LimitedLakefield, OntarioDecember 12, 1989/mo
Test Details
DELORO MAGNESITE VENTURE FUNDADELAIDE ST. WEST, SUITE 3310, TORONTO. ONTARIO M5H 3P5
r AY TO THE ORDER OF
0022; . - : December 14 to 89
RossMcPhail -- —————————————— 4 *? i/m^g*
TS".
SUM OF . ./100 DOLLARS
Re: December 7, 1989 Invoice
Canadian Imperial Bank of CommerceMAIN BRANCH-COMMERCE COURT TORONTO, ONTARIO MSL 1G9
ii'OOOO 5 E"1 iIOOOO 2-0
DELORQxMAGNESITE VENTURE FUND
PER
3D" 1 5 IR IR"1
DE W 21 iMKOf lOlTREALs V•^•^"SS^I -4
FROM LflSTCORP IHUESTMEHTS ( UED )07. l l . ' 90 10:45 HO. 3 PRGE 3
! ^ 1989
84 Hemlock Street Timmins, ON, P2*N6S3 December 7,1989
Lastcorp Investments Ltd*Suite 3310, 130 Adelaide Street WestToronto, Off, M5H3P5
Attentions Mr, James A* Bates, P. Eng
In account with Ross MacPhail, P. Eng for services in securing and delivery of ore samples from the magnesite pit in Deloro Twp. for testing at Wakefield Research, Lakefield, Ontario.
Three days for securing and delivery of a one tonsample, aug. 2^-30, 1989. S900.00
Two days for arranging for the delivery of a 13ton sample to Lakefieid Research on Rev* 3, 1989and to assisting Mr. Ted HacKay of ICG Utilities( Ontario ) Ltd. in the location of the proposedmine site. S600.GO
Truck rental re. Tilden, Msl Murdock, invoice T3-268^9 - 3553.80Gasoline, Shell Canada slips _ ^ S86.79
Total Sauo. 59
~^7
DELORO MAGNESITE VENTURE FUND, -O ADELAIDE ST. WEST, SUITE 3310,
TORONTO, ONTARIO M5H 3P5February
0119-28__19- 90.
PAY TO THE .ORDER OF_~ Lakefield Research *1.311.50*
SUM OF . ?I3 T T BOIS g O en ./l00 DOLLARS
Re: Inv 30055DELORO MAGNESITE VENTURE FUND
Canadian Imperial Bank of CommerceMAIN BRANCH-COMMERCE COURT TORONTO. ONTARIO MSL 1G9
mn,
ii'OOO l 1 1"1 00000 30"'S •''0000 l 3 1 L bO,-'
"•OODiiqn- UDODQ 5-0 5 l ^ l S"1 /000013U50,'1
f MR 49tf 03di B C
DATA CENTRITOB OMT.
S& *o o?-T - -c.l.?* c
ATA CCNTRF:TOM. oui:
FROM LfiSTCORP IHUESTMEHTS CUED )S7. l l. '98 10:46 NO. 3 PRGE 5
INVOICE
LAKEFIELD RESEARCHA DIVISION OF FALCONBRIDGE UM1TED
P.O. Box 430, 185 Concession St,. LakefieM. Ontario KOL 2HO Phone: (70S) 652-3341 Tetex No. 06 962842
Fax No, (706) 652-6365
TO:MAGNESIUM REFRACTORIESSUITE 1300130 ADELAIDE STREET, WESTTORONTO, ONTARIOATTN :MR. J. BATES
NO.: 30055DATE
SENT TO:
February 12 t9 SO
Our Pvo.ject L. R. 3778 - - January Charges
RE: MQO, TALC - PILOT PLANT UNDER: DIft. B. ELLIOT
TO Research Charges:
'5,50 hours at $ 55.008.00 hours at * 65.002.OD hours at S 75.00
TO Analytical Charges-.
5 B 4 NI
@ S 15.00d * u.oo
522.50520.00.150,00
75.0044.00
1. 1-52.50
119.00
1.31 i.5C
PLEASE PAY BY INVOICE - Terms- Net 30 A*** -x*.
FROM LRSTCORP INVESTMENTS " v'
(UIED)S7.11.'90 10:46 NO. 3 PflGE
{ INVOICE r NOV 23 1989
LAKEFIELD RESEARCHA DIVISION OF FALCONBRIDGE, LIMITED
P.O, Box 430, 185 CofK^ston SI, Lakefieid, Ontario KOL 2HO Phone: (70S) 652-3341 Telex No. 06 962842Fax No. (705)652-6365
TO: MAGNESIUM REFRACTORIESSUITE 1300130 ADELAIDE STREET, WESTTORONTO, ONTARIOATTN :MR. J. BATES
NO, 29554DATE
SENT TO:
November 16 89
Our Project L.R. 3778 - - October chargesRE J MGO, TALC - PILOT PLANT
UNDER DIE. B. ELLIOT
TO Research Charges:
45.00 hours at S 49.50 78.00 hours at S 62.50
TO Analytical Charges:
3 AC @ 3 8.008 FE e S 12.002 3102 @ $ 15.00
2,227.504,875.00
24,0096.0030.00
7,102.50
150.00
7,252.50
PLEASE PAY BY INVOICF -
DELORO MAGNESITE VENTURE FUND/-"^ADELAIDE ST, WEST, SUITE 3310. X—\
Y ^TORONTO, ONTARIO M5H3P5 *^-''December
003229: . ^
..-v'^V s '-'
DELORO MAQNES1TE VENTURE FUND
Re: :- Iriv29554Imperial Bank of Commerce
; MAIN BRANCH-COMMERCE COURT TORONTO, ONTARIO MSL 109
FROM LflSTCORP I H U E S T M E H T S (UED )07. l l . '98 10:47
INVOICE (NO. 3 PflGE 9
LAKEFIELD RESEARCHA DIVISION OF FALCONBRiDGE
P.O. Box 430. 185 Concession St, Ukefield. Ontario KOL 2HO Phone: (70S) 652-3341 Telex No. 06 962842
Fax No. (705) 652-6365
NO, 29241DATE September 15 19 89
TO: MAGNESIUM REFRACTORIESSUITE 1300130 ADELAIDE STREE^ WESTTORONTO, ONTARIOATTN :MR. J. BATES
SENT TO:
Our Project L.R. 3778 - - AUGUST Charges
RE: MGO, TALC - PILOT PLANT UNDER DIR. B. ELLIOT
TO RESEARCH CHARGES :
22.00 hours at S 4 9.50 42.50 hours at S 62.50
TO ANALYTICAL CHARGES :
l FE @ $ 12.00
.i./,' r i .'it---i
1,089.00 2.6S6.25
12.00
3/745.25
12.00
3,757.25
PLEASE PAY BY INVOICE — Terms: Net 30 days. 2* st-rvice charge per month on overdue accounts.
pai4Efpspst' \ 3:^-':.: - r^i:-^^••:-.\^i#^-''-^v;-.- v^r.^.'(.?'-''''..' ' ' '~J'-"-'
.:3Sfe - /v/^-'.
-v.
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..-:^-^^;r:^——————;
|.:;^ilil'; ®/;; ' ': :- - '••• ; --'."•••' ': l•; - -' . •••••'^:- ' l/
'
.- - -
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^:. •S&&.-. •.•; 1;;. ;- •••' -' . . .-' ; ; :-: ' i l
••'••• ; .' :; - ' ' .. -. ' :-2*91
: v: -. '::'." ',::-:\
•'f':,
'V.Ministry ofNorthern Developmentand Mines
Ontario
Report of Work
DOCUMENTSU/ 9006
Mining Act ( Expenditures. Subsection 77(19)) /-/'- . 42A06SW0002 2.13510 DELORO 900
Type of Work Performed
T/UL ^ ^)At"P(. l^iG A^7Recorded Holder
//jA'Oc'v /Vl/C .
fiwtfc,*™*STX,,uWining Uivision
2. /3tr,Township or Area
^ /J g L ft# O ^ftsf
't?Address
y .c* . (y fl G x/o/o f/AfA/.'x/j OA'' ' f?t\J~~7x~7Work Pertormed By
1 L-^tF.tLO tLt^C-H
Prospector's Licence No
•"y *?i.Q fi
Telephone No.
Name and Address of Author (of Submission) \ is~f Til Q
/y A - i ^-f / ?0 i4.Dt^-X \f)^ *}1~ t ^J f^ ' ' ^ *~ (- fQf 'O / r^OA/^T/^/*^ 1̂ .f''^^(^1 O/^ f t? ) 6 7^7. ""77y ox/775 /WC// ^/^
All the work was performed on Mining Claim(s): Irrdicaie no. of days performed on each claim. 'See Note No. 1 on reverse side
Mining Claim
Mining Claim
No. of Days
No. of Days
Mining Claim
Mining Claim
No. ot Days
No. ol Days
InstructionsTotal days credits may be distributed at claim holder's choice. Enter number of days credits per claim in the expenditure days credit column (below).
Mining Claim No. of Days Mining Claim
Mining Claim No. of Days Mining Claim
Mining Claim No. of Days Mining Claim
Calculation of Expenditure Days Credits Total Expenditures
s 14,46 /. 34 *
Date When From: -
Da/ | Mo.
No. of Days Mining Claim
No. o1 Days Mining Claim
No. of Days Mining Claim ..
Total Days Credits
is = 3(A
No. ol Days
No. ol Days
No. of Days
Work was Pert
39 J?| W. Day
armed
l Mo. 1 Yr.
Mining Claim
Mining Claim
Mining Claim
No. ol Days
No. ol Days
No. ol Days
Total Number of Mining Claims Covered by this Report of Work
19Mining Claims (List in numerical sequence). If space is insufficient, attach schedules with required information
RECORDED
Total Number of Days Performed Total Number of Days Claimed
Certification of Beneficial Interest *See Note No. 2 on reverse sidel hereby certify that, at the time the work was performed, the claims covered m this report of work were recorded in the current recorded holder's name or held under a beneficial interest by the current recorded holder.
Date Recorded Holderpr Agent (Signature)
Certification Verifying Report of Workl hereby certify thai l have a personal and intimate knowledge of the facts set forth in the Report of Work annexed hereto, having performed the work or witnessed same during and/or after its completion and the annexed report is true.
Name and Address of Person Certifying
X //IC. /'o /x/ f. /o fTelephone No.
7- r - i-b i -','f/Date Certified-ByTSBnature)
Received Stpmp ~ '\-^\'-M-. 'V^/'i
For Office Use Only TR\wf^frinn7jV;-i^ plH'J^'-M'.^hr1 "' i,6l990 j
Magnesium Refractories Ltd.
July 17, 1990 2.13510
Mining RecorderMinistry of Northern Development
and Mines 60 Wilson Avenue Timmins, Ontario P4N 2S7
Dear Sir:
RECEIVED05 1990
MINING LANDS SECTION
The following reports are submitted along, with copies of invoices and payments for assessment credits on the attached claims.
Bulk samples of ore were taken from a previously blasted area on the claims and were sent to Lakefield Research, Lakefield, Ontario. Flotation tests were done at Lakefield Research for preparation of magnesite concentrate which was calcined and then taken elsewhere for compaction and dead burning to produce refractory grain magnesia for market evaluation. A copy of the Lakefield report covering the flotation test work is attached.
Some of the concentrate, both in the magnesite form and in the form of calcined magnesia were submitted to a large magnesium metal operation in Eastern Canada. They raised questions about the content of some of the minor constituents and further work was done at Lakefield Research to try and determine the source of these contaminants. Copies of this work are also attached. This work is continuing.
Yours truly,
R.A. Elliott
RAE/rb
Suite 3310, 130 Adelaide Street West, Toronto, Ontario M5H 3P5 Telephone: (416) 865-9300, Facsimile: (416) 865-1 153
EXHIBIT ATO
OPTION AGREEMENT DATED AUGUST 22, 1989
Porcupine Mining Division Deloro Township
ClaimRecordNumber
HR1203HR1204P11118P18692P18693P21279P21280P21322P21323P21324P21325P21326P21349P21350P21710P25167P25168P724612P724613P725183P725184P781232P849849P849850P849851P850090P850091P850092P850093P850094P850095P850096P850097P850098P878736P905601
Claim Name
Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Surf. Magnesite Ext. Magnesite Ext. Magnesite Ext. Magnesite Ext. Magnesite Ext. South Magnesite South Magnesite South Magnesite Magnesite Magnesite Magnesite Magnesite Magnesite Magnesite Magnesite Magnesite Magnesite Magnesite Ext. Magnesite West
ClaimStatus
PatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedPatentedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStakedStaked
ParcelNumber
2567256849688325833483268327717371747175717671778335
10290832988608860
0000000000000000000
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J LAKEFIELD RESEARCHMk A DIVISION OF FALCONBRIDGE LIMITED
PHONE (705)652-3341 TELEX NO. 06962842
FACSIMILE NO. (705) 652-6365 A DIVISION OF FALCONBRIDGE LIMITED
December 20, 1989
Mr. Robert A. ElliotMagnesium Refractories Ltd.Suite 3310 P FT FIVE D130 Adelaide Street, West * c v fc ' v b
M5H3P5 SEP Q ̂ "^
MINING LANDS SECTIONDear Mr. Elliot:
Re: LR3778
Please find enclosed two samples produced from magnesite concentrate, provided
by Mr. B. Wyslouzil.
Sample C4 is calcine without grinding or hydration as requested, approximately 2 Ibs. to fill your client's needs.
Sample C5 is calcine which was ground and hydrated. C5 weighs approximately 2.5 Ibs.
The procedures used to generate each sample are attached.
Yours truly, LAKEFIELD RESEARCH
Richard Wagner, P. Eng. Project Engineer
RW:bjs Enclosure
185 CONCESSION STREET. P.O. BOX 430 LAKEFIELD, ONTARIO, CANADA KOL 2HO
CALCINE PRODUCTION
Tests C4 and C5:
Magnesite samples, from B. Wyslouzil, were calcined by the following procedure:
1. Less than 1.5 kg of magnesite was placed in a tray.
2. The tray was transferred to a high temperature muffle, preheated to l SOOT.
3. The sample was calcined at temperature for a minimum of 6 hours.
4. The furnace was shut off, the door opened, the tray air cooled and removed.
C5 GRINDING AND HYDRATION
Test C5:
Approximately one kg of calcine was dry ground, for 5 hours in the Pebble mill
with 19.1 kg of ceramic balls.
The ground charge was placed in a pyrex dish and 440 mL of 1200F water was added. The mixture was placed in a drying oven, set at 2500F for approximately 12 hours.
A 50 g sample was removed for surface area determination.
JAN 2 4 1990l AKFFIFI n RFSFARfH sgssrsssLrMXLI ILLLJ l ILOL/VI lUI l F ACSIMILE NO .(70S) 652 6365 A DIVISION OF FALCONBRIDGE LIMITED
January 22, 1990
Mr. James Bates MAGNESIUM REFRACTORIES #3310 - 130 Adelaide Street West Toronto, Ontario M5H 3P5
Dear Jim:
Re:_____Nickel Assays—-—^-^
We have performed nickel analyses on the magnesite concentrate (flotation) and on the various calcines we produced.
____Product______ Jo N i Ni ppm
Magnesite concentrate 0.074 740Calcine 0.14 1400C-5 Hydrated 0.13 1300C-6 Hydrated 0.13 1300
In order to find the source of the nickel, we would have lo perform some probe work.
Please let us know if you require further work on these products.
Yours sincerely,
LAKEFEELD RESEARCH
Robert S. Salter General Manager
(RSS/Magncsitc/22/01/90)
185 CONCESSION STREET. P.O. BOX 430 LAKEFIELD. ONTARIO. CANADA KOL 2HO
LAKEFIELD RESEARCH
185 Concession StreetP.O. Box 430
Lakefield, OntarioKOL2HO
Facsimile No. (705) 652-6365 Telephone No, (705) 652-3341
To: Bob Elliott Company: Magnesium Refractories
From: Rod Williamson Fax. No.: 416-865-1153
Date: 6 March, 1990 Reference: 3778
This transmission consists of _5. page(s), including this one.
The typed copy of the tourmaline leach test is attached as promised.
TEST NO. JG1
PURPOSE.: To examine B and Nl dissolution characteristics from tourmaline
concentrate.
PROCEDURE: Prepare tourmaline concentrate irom hand picked specimen in
magnesite. Crush and concentrate as much as possible using Frantz
Isodynamic separator. Hand mortar to -200 mesh and split concentrate
into 3 tractions. Store 1 fraction, submit 1 fraction for head analysis and
leach 1 fraction sequentially in 200 ml glass volumetric with 1N, 3N and
6N HCI. Repeat test with 1N, 3N and 6N HCI and no sample to determine
B dissolution trom glass.
FI WP' - eT itum** o——*- (MM* l-** "O™"* in magnestt
Hand mortar In alumina pestle and mortar to-200
mesh
1.328 g 1.045 g
l100mLlNHCl.24h,200C
Fi er- sol'n assay B. Nl. Mg
100mL3NHCI.24h,200C
FI 1 er sol'n assay B. Ni. Mg
lOOmL6NHCI,24h.200C
1.252 g head sample B, Nl and Mg
Fitter- sol'n assay B. Nl. Mg
lResidue0.378 g in filter paper
RESULTS: The B analyses Irom the 1N. 3N and 6N HCI dissolution from glass was
0.12 mg/L B which was subtracted from the analyses with the sample.
M&tallurolcal Balance.
Magnesium Refractories LR 3778
Tourmaline Concentrate Leacn
Product
1 N HCI Soi'n3 N HCI Sol'n6 N HCI SofnResidue
Head (direct)Head (calc)
Amount
99 ml100 ml96 mL
0.378 g
1.3280i...
Assay (yo.mo/L)Ni
4.95.160.770.19
0.130.13
B"
0.140.350.12
.cO.0005
0.00230.0045
MO
11001200170
20.1*
24.244*1
(*) DistributionNi
28.129.94.337.7
100
B
19.757.919.13.3
100
Ma
33.937.35.123.7
100
* back calculated" detection limit 0.002 mg/V.
OBSERVATIONS:
1. The leach residue represented 28.5V0 ol the feed weight and assayed Q.19% Ni,
•cO.0005% B and ao.1% Mg (calculated). Unfortunately the Mg assay of the residue was
not measured. It had been assumed that the Mg would dissolve and the emphasis was
placed on the NI and B analyses of the residue.
2. The calculated head tor NI was the same as the direct head * 0.1 3Vo Ni. The NI data Is
excellent.
3. The calculated head for B was 2x the direct head but the results suggest that virtually all
the B leached out. The residue assayed •tO.OOOB'yo B.
4. The relatively low Mg dissolution was unexpected. The results suggest that Mg silicate
was present but this is doubtful.
RECOMMENDATION'
1 . Repeat the test on the 1 .045 g sample in storage but using only the 6N HCI leach. Assay
the residue for NI, B and Mg. Conduct the test in a teflon volumetric but run a standard
leach without sample to determine possible background interference.
2. Repeat the 6N HCI leach on a 20 g cut section of tourmaline In magnesite for 1 week.
Observe the reaction. Replace the solution every 24 hours and assay for B, Ni and Mg.
SYMBQLO6Y
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AREAS WITHDRAWN FROM DISPOSITION
MRO -MINING RIGHTS ONLYt R O - SURFACE RIGHTS ONLYM *S -MINING AND SURFACE RIGHTS
Onto No Dm Dtapovttfen F H*
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 MINING
\ DELORO
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TISDALE TWP G-3976
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TRAILS ~ ,
SURVEYED LINESTOWNSHIPS BASE LINES "ETC -LOTS MINING CLAIMS PARCELS ETQ
UNSURVEYEO kINiSLOT LINESPARCEL BOUNDARYMINING CLAIMS ETC
RAILWAY AND RIGHT OF WAY i
UTILITY LINES
NON PERENNIAL STREAM FLOODING OR FLOODING RIGHTS
SUBDIVISION OR COMPOSITE PLAN
RESERVATIONS ORIGINAL SHORELINE
MARSH OR MUSKEG
MINES TRAVERSE MONUMENT
DISPOSmON OF CROWN LAUDS
TYPE OF DOCUMENT
PATENT SURFACE A MINING RIGHTS
SURFACE RIGHTS ONLY _.
MINING RIGHTS ONLY ,. LEASE SURFACE ft MINING RIGHTS
SURFACE RIGHTS ONLY ...
MINING RIGHTSONLY .
LICENCE OF OCCUPATION . . . ,
ORDER IN COUNCIL
RESERVATION
CANCELLED ....
SAND ft GRAVEL _ . . ,,
SYMBOL
fteQ
B T
oc
(DNOTE MINING NIOHTS IN FARCE LS rATCNTEO ^MlOM TO MAY C
1913 VESTED IN ORIGINAL PATENTEE OY THE PUOLIC LANDS ACT H S O 1*70 CHA* MO SEC 03 SUOSCC 1
400
10 O Criwnt - - - rt-c
SCO CH H -" t-
10 20 40
MOO 3000 4000 MOO
SCALE 1 20 000
NOTES
inrREGISTERED PLAN OF SUBDIVISION
MINING f LAIMS SHOWN Wl HI l TI'IS ARLA APF SUBTEC^ T^ THE PIGHTS AND PRIVILPrrS CRANTTD MHDER AN EASCMEN) ORDEP DATED MAi 1 Q 1937 TO DELNITE MINi:S LTD
DOMP MINES LIMITED SUKtACL RIGHTS LEASE 1103926
AT I LIL-ATION LNOER P L, A FOR SURFACE JUCHPS DUCKS UNLIMITED CANADA
IS SURJFCT TD FOR'SI ACTIVITIES fi I99O FURTHER INFORMATION AVAILABLE ON FILE
,iW1990
TOWNSHIP
DELOROMMR ADMINISTRATIVE DISTRICT
TIMMINSMINING DIVISION
PORCUPINELAND TITLES/ REGISTRY DIVISION
COCHRANE
Ministry ofNaturalResources
LandManagement
BranchOntario
0*1* 10*4
G-39?