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Test Code : 1D0-441
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REM updates on Cinovec Lithium job drilling | killexams.com true Questions and Pass4sure dumps

StockMarketWire.com - rare Earth Mineral reports the deliberate drillhole programme on the Cinovec lithium/tin challenge has been completed on time and budget, without time loss incidents.

In total 17 drillholes had been drilled to a summary depth of 6081 meters. Analytical outcomes for the CIW-10 and CIW-23 are mentioned. in addition, a enormously experienced mining executive has been appointed nation manager of the undertaking.

REM holds a 20.seventy six% economic hobby in Cinovec, by means of its hobby in European Metals Holdings confined ("EMH"). Cinovec incorporates the largest lithium aid in Europe and one of the crucial greatest undeveloped tin resources on the earth.

HIGHLIGHTS:

- Analytical consequences for additional two drillholes at Cinovec main tested or exceeded the expected lithium content material and mineralisation widths.

- One drillhole is discovered at the western edge of the deposit near the contact of the mineralisation. The different drillhole is located within the imperative a fraction of Cinovec leading. This pocket has lower back the most preempt lithium interval to date.

- pocket CIW-23 recorded an interval of 261.1m averaging 0.50p.cLi2O (including excessive-grade intervals 23.9m@0.81p.cLi2O, 8m@1.05percentLi2O, 4m@1.17percentLi2O, 4m@1.forty onepercentLi2O, and 6m@0.ninety five%Li2O. in addition, giant tin and tungsten mineralisation is recorded: eleven meters averaging 0.081% tungsten, 5 meters averaging 0.14% tin and 1 meter averaging 1.2% tin, and a brace of meters averaging 0.088% tungsten.

- pocket CIW-10 pronounced an intercept of 223.9m averaging 0.43% Li2O.

- Geological counsel from everyone 17 drillholes has been compiled into the Cinovec database and serves to update the geological mannequin for Cinovec main. The geologic mannequin may subsist used to constrain and update the existing conceal mannequin. The conceal model could subsist up-to-date in early February when everyone analyses can subsist bought. The conceal model and useful resource calculation may subsist a fraction of the Pre-Feasibility examine deliberate for unlock in April 2017.

At 9:37am: [LON:REM] rare Earth Minerals PLC share rate was +0.04p at 0.56p

Story supplied by StockMarketWire.com


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New leading minister Malcolm Turnbull is selling a vision for Australia concentrated on innovation and embracing the alternatives that comprehend being a fraction of a global economic climate. How this current strategy will translate into particular coverage initiatives can subsist the test of the gist of this agenda.

His vogue is markedly distinctive to that of the former Abbott executive, which was liable for winding returned a brace of imaginitive initiatives that had received alien pastime together with tools which the Australian Bureau of records developed which gave a much clearer image of how we're progressing as a society.

but an opening to re-set might smartly near at the 5th agency for economic Cooperation and building (OECD) World forum – to subsist held in Guadalajara, Mexico on 13-15 October.

the area discussion board will appear to subsist in any respect facets of modern existence, from the problem of designing habitable cities, which encompasses transport infrastructure - a protracted-standing count of pastime for Turnbull - as well as coverage priorities such as fairness in schooling and employment alternatives, infant well being and environmental sustainability.

but its leading office this yr is in discussing the obstacles of the consume of the economic indicator of GDP as a size of growth, and seeing that options.

With its membership of 34 developed countries, the OECD gathers national records to generate experiences and tools to tackle primary coverage areas and to stimulate economic exercise.

inside the OECD and country wide governments there is growing focus that the smartly-being of citizens does not immediately stride from fiscal enlarge and that the herbal ambiance can not subsist taken for granted and ought to subsist preserved. These growing pressures claim a extra refined strategy to the statistics and guidelines that profile their societies, including current tools for measuring well-being and residing with planetary boundaries.

Sustainability has moved to centre stage in the international agenda for national coverage as common population enlarge and raises in consumption hold accelerated environmental degradation. The UN’s Millennium building desires, which concentrated on elevating developing nations, hold now been replaced via the Sustainable construction goals (SDGs).

The 17 key coverage areas for developed and developing international locations alike hold been ratified which ply human well-being whereas consciously managing the affects of society on the ambiance for the sake of future generations.

The UN SDG pinnacle held in current york ultimate month drew an extraordinary panoply of sheperd from the universal meeting of nations, together with the chinese President Xi Jingping, Indian prime Minister Narendra Modi, Russian President Vladimir Putin, and protected shows from Nobel Laureates and Pope Francis.

The OECD might subsist working on an in depth response to the SDGs and continue to pursue its work on the large policy areas contained in the desires.

unless recently Australia held a management position in the OECD round discussions about altering the definition of growth beyond fiscal boom and the significance of neatly-being and sustainability.

The Measures of Australia’s development (MAP) venture with the aid of the Australian Bureau of facts (ABS) turned into showcased because the benchmark for developed countries at previous OECD World forums.

This application was axed beneath the Abbott government and presently the environmental data being gathered via the ABS is restrained primarily water and energy consumption in preference to concentrated on long dash sustainability of ecosystems. companionable programs hold too been wound again, reducing the skill of coverage makers to consume facts to inform coverage decisions.

Conservative governments, together with the Coalition, usually count more on “trickle down” economics, which assumes that if there's greater wealth in the country then the entire population will improvement by hook or by crook through fiscal activity. This suggestion has been squarely knocked on the head by artery of French economist Thomas Piketty, whose booklet Capital in the 21st Century, sparked an international discourse on turning out to subsist wealth inequality.

The OECD World discussion board will existing most fulfilling practices and case studies to inform coverage building. Host country Mexico will supply perspectives from the Latin American location, which can subsist less economically powerful but enjoys other signals of success - such as Costa Rica, which continuously ranks in the exact three of the area’s happiest americans.

different symptoms past GDP are dawn to upward thrust in prominence. In Australia, leading philanthropist Steve Killelea effectively launched the tally of the world Peace Index at the United nations, with 162 nations now taking fraction during this annual set of numbers. The Australian countrywide development Index is on the realm discussion board agenda, which developed from the Canadian Index of well being (CIW) task. The CIW is the alien benchmark assignment for national consultation for measuring and informing policy priorities.

The federal opposition is warning Australians that Turnbull is of the identical mold as Abbott and that Coalition guidelines will abide tremendously unchanged. With every coverage announcement the current course for the country is fashioned. The OECD World forum provides an opening to investigate modern coverage challenges and evaluate Australia’s relative performance in the major policy domains.


1D0-441 CIW Database Specialist

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Further Shallow Lithium-Tin Mineralisation | killexams.com true questions and Pass4sure dumps

For immediate release

8 November 2016

EUROPEAN METALS HOLDINGS LIMITED

Further Shallow Lithium-Tin Mineralisation Intersected at Cinovec

 

European Metals Holdings Limited ("European Metals" or "the Company") (ASX and AIM: EMH) is pleased to publish analytical results for a further two drillholes CIW-07 and CIW-08 at the Cinovec Lithium-Tin-Tungsten Project ("the project" or "Cinovec").

Key Points:

·     The two drillholes are collared near the historic main shaft.

·     Significant lithium mineralization intersected from less than 10m depth in both holes, these are the shallowest intervals to-date.

·     Drillhole CIW-07 returned a lithium-mineralized intercept of 226.7m @ 0.45% Li2O (inclusive of a 6.6m below cut-off un-altered granite), from 35m.

·     Drillhole CIW-08 returned a mineralized intercept of 246.3m averaging 0.40%Li2O from 10.7m, containing elevated grade intervals of 6m@0.78%Li2O (126-132m) and 4m@0.88%Li2O (147-151m).

·     Significant tin and tungsten mineralization was intersected in upper fraction of both drillholes:

o  Drillhole CIW-07 - 12.5m@0.19%Sn and 0.028%W, 3.05m@0.17%Sn and 0.077%W, 1.45m@0.83%Sn and 0.124%W, 5m@0.17%Sn and 0.001%W and 2m@0.112%W and 0.04%Sn

o  Drillhole CIW-08 - 4m@0.76%Sn and 0.081%W, 6m@0.38%Sn and 0.030%W, 4m@0.19%Sn and 0.003%W and 2m@0.79%Sn and 0.095%W

·     Drilling continues in the western fraction of the Cinovec deposit (targeting elevated grade zones near the rhyolite/granite contact) and in the central fraction (targeting near-surface mineralization on the flanks of the historic underground mine). Altogether, nine drillholes hold been competed this year (3,222m) with three other underway at this time.

 

European Metals CEO Keith Coughlan said "We are very pleased with the results for the latest two neighboring drillholes, located in the uppermost fraction of the Cinovec deposit near the historic mine shaft. The shallow lithium intercepts that extend significantly beyond historical workings, combined with the substantive tin and tungsten grades auger well for the economics of the deposit in this area. They are very pleased to view the tin price back above USD 21,000/t. This enhances the economics of Cinovec significantly and provides us with remarkable flexibility with regards to the development of the project. Cinovec is not only the largest lithium resource in Europe, it too contains one of the largest undeveloped tin resources in the world."

Drill Programme

The drillholes CIW-07 and CIW-08 are located in the central fraction of the Cinovec, near the Central Shaft where elevated grade tin and tungsten veins were mined in the past.  The current drill programme at Cinovec Main has been planned to substantiate and  delineate near surface lithium and tin mineralisation that would provide initial feed to the mill. Other goals are the conversion of resources from the Inferred to Indicated category, and delivery of material for metallurgical testing.  So far, nine diamond core holes hold been completed, and three are underway.  Visual inspection and logging indicates that the geology in these holes is as expected. Drill details are listed in Table 1 below.

After geological logging, drill core is nick in half with a diamond saw.  Quarter core samples are selected (honouring geological boundaries) and dispatched to ALS (Romania) for preparation and assay; the 3/4 of the core is returned to the core box and stored securely on site.  Samples are being prepared and analysed by ALS using ICP and XRF techniques following benchmark industry rehearse for lithium and tin deposits.  Strict QAQC protocols are observed, including the insertion of a Li benchmark in random vogue for every 10 core samples.

Table 1 - Completed drillholes, Cinovec Main

Hole ID

North

East

Elevation (m)

Depth (m)

Azimuth

Dip

Comments

CIW-11

-966097.5 1)

-779299.5 1)

867.4

444.4

40.1

-77.86

confirmation/infill

CIW-20

-965638.0 1)

-778810.5 1)

837.5

257.6

336.7

-84.6

confirmation/infill

CIW-19

-965692.1 1)

-778810.8 1)

837.8

271.5

332.1

-89.58

confirmation/infill

CIW-08

-965800.2 1)

-778791.4 1)

837.6

274.9

156.85

-89.3

confirmation/infill

CIW-18

-966185.0 2)

-779020.0 2)

837.5

395.7

210.6

-89.05

confirmation/infill

CIW-13

-966126.8  1)

-779175.5  1)

862.8

429.3

76.0

-80.4

confirmation/infill

CIW-14

-966088.0 2)

-779050.0  2)

858

417.8

323.3

-89.07

confirmation/infill

CIW-07

-965847.0 2)

-778867.0  2)

841

300.0

0 3)

-90 3)

confirmation/infill

CIW-28

-965925.0 2)

-779215.0 2)

864.7

430.5

0 3)

-90 3)

confirmation/infill

Hole locations are recorded in the local S-JTSK Krovak grid, 1)Coordinates surveyed, 2)Coordinates determined by GPS, 3)Planned, no inclinometry yet

Mineralized Intercepts and Lithology in CIW-07 and CIW-08

The drillholes CIW-07 and CIW-08 are collared in altered granite near the historic mine shaft. This geological domain is characterized by the presence of quartz veins flanked by relatively narrow li-mica veneers, hosted in variably altered (greisenized) and mineralized lithium granite. Most of the quartz veins were mined out in the past. The drillholes hit several open stopes after vein mining.

This geological domain has too a part geochemical signature in that the vein-hosting granite is continuously enriched in tin.  So in  CIW-07 the upper 184.2 meters average 0.058%Sn (median 254ppm), and 164.3m@0.066%Sn (median 210ppm) in CIW-20, respectively.

The vein system is underlain by greisenized granite and greisen intervals well mineralized in lithium.

Table summarizing mineralised intercepts in CIW-07

CIW-07

From

To

Interval (m)

Li2O (%)

Sn (%)

W (%)

Note

3.5

15

10.5 *)

0.30

 

 

 

35

157

117.7 *)

0.40

 

 

incl. 9.55m@0.75%Li2O (69.9-80.1m),and 4.81m@0.73%Li2O (88.72-94.4m)

69.9

83.3

12.5 *)

0.69

0.19

0.028

 

73.45

76.5

3.05

0.62

0.17

0.077

 

88.72

90.17

1.45

0.62

0.83

0.124

 

93.4

94.4

1

1.07

0.25

0.004

 

102

103

1

0.57

0.12

0.003

 

118

119

1

1.09

0.16

0.016

 

141

142

1

0.43

0.10

0.002

 

142

143

1

0.47

0.09

0.121

 

157

162

5

0.12

0.17

0.001

 

163.6

266

102.4

0.55

 

 

incl. 5m@0.77%Li2O (173-178m),23m@0.76%Li2O (187-210m),3.95m@1.11%Li2O (196-199.95m),7m@0.59%Li2O (232-239m)and 21m@0.62%Li2O (242-263m)

173

175

2

0.74

0.04

0.112

 

191

192

1

0.42

0.16

0.002

 

Cut-off: 0.2%Li2O, 0.1%Sn, 0.05%W *) intercept net of open stopes from past mining

 

Table summarizing mineralised intercepts in CIW-08.

CIW-08

From

To

Interval (m)

Li2O (%)

Sn (%)

W (%)

Note

10.7

257

244.3 *)

0.40

 

 

incl. 4m@1.01%Li2O (126-130m),9m@0.90%Li2O (148-157m),and 27m@0.51%Li2O (218-245m)

74

78

4

0.34

0.76

0.081

 

83

84

1

0.40

0.12

0.110

 

98

99

1

0.98

0.34

0.004

 

106

107

1

0.38

0.12

0.002

 

109

110

1

1.27

0.14

0.021

 

126

132

6

0.78

0.38

0.030

 

147

151

4

0.88

0.19

0.003

 

167

168

1

0.41

0.13

0.006

 

61

62

1

0.49

0.01

0.121

 

66

67

1

0.77

0.01

0.994

 

74

75

1

0.30

1.05

0.221

 

80

84

4

0.39

0.05

0.069

 

126

128

2

1.24

0.79

0.095

 

Cut-off: 0.2%Li2O, 0.1%Sn, 0.05%W *) intercept shorter by mined-out cavities

 

 (Please mention to the announcement on the European Metals Website for the graphic device 1 - A geological map showing the Company's drill holes against surface geology and subsurface greisen bodies projected to surface (in green). Historic UG workings and drill holes not shown. Blue and Green circles denote drillholes completed in 2014 and 2015, respectively, 2016 drillholes in white - www.europeanmet.com.)

BACKGROUND INFORMATION ON CINOVEC

PROJECT OVERVIEW

Cinovec Lithium/Tin Project

European Metals owns 100% of the Cinovec lithium-tin deposit in the Czech Republic. Cinovec is an historic mine incorporating a significant undeveloped lithium-tin resource with by-product potential including tungsten, rubidium, scandium, niobium and tantalum and potash. Cinovec hosts a globally significant difficult rock lithium deposit with a total Indicated Mineral Resource of 49.1Mt @ 0.43% Li2O and an Inferred Mineral Resource of 482Mt @ 0.43% Li2O containing a combined 5.7 million tonnes Lithium Carbonate Equivalent.

This makes Cinovec the largest lithium deposit in Europe and the fourth largest non-brine deposit in the world.

Within this resource lies one of the largest undeveloped tin deposits in the world, with total Indicated Mineral Resource of 15.7Mt @ 0.26% Sn and an Inferred Mineral Resources of 59.7 Mt grading 0.21% Sn for a combined total of 178kt of contained tin. The Mineral Resource Estimates hold been previously released on 18 May 2016. The deposit has previously had over 400,000 tonnes of ore mined as a crucible sub-level open stope underground mining operation.

A Scoping Study conducted by specialist independent consultants indicates the deposit could subsist amenable to bulk underground mining. Metallurgical test work has produced both battery grade lithium carbonate and high-grade tin concentrate at excellent recoveries with the Scoping Study. Cinovec is centrally located for European end-users and is well serviced by infrastructure, with a sealed road adjacent to the deposit, rail lines located 5 km north and 8 km south of the deposit and an active 22 kV transmission line running to the historic mine. As the deposit lies in an active mining region, it has tenacious community support.

 

CONTACT

For further information on this update or the Company generally, tickle visit their website at www. http://europeanmet.com or contact:

Mr. Keith CoughlanManaging Director

 

OTHER INFORMATION

COMPETENT PERSON

Information in this release that relates to exploration results is based on information compiled by European Metals Director Dr Pavel Reichl. Dr Reichl is a Certified Professional Geologist (certified by the American Institute of Professional Geologists), a member of the American Institute of Professional Geologists, a Fellow of the Society of Economic Geologists and is a Competent Person as defined in the 2012 edition of the Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves and a Qualified Person for the purposes of the point Guidance Note on Mining and Oil & Gas Companies dated June 2009. Dr Reichl consents to the inclusion in the release of the matters based on his information in the profile and context in which it appears. Dr Reichl holds CDIs in European Metals.

The information in this release that relates to Mineral Resources and Exploration Targets has been compiled by Mr Lynn Widenbar. Mr Widenbar, who is a Member of the Australasian Institute of Mining and Metallurgy, is a plenary time employee of Widenbar and Associates and produced the assess based on data and geological information supplied by European Metals. Mr Widenbar has adequate suffer that is apposite to the style of mineralisation and sort of deposit under consideration and to the activity that he is undertaking to qualify as a Competent Person as defined in the JORC Code 2012 Edition of the Australasian Code for Reporting of Exploration Results, Minerals Resources and Ore Reserves. Mr Widenbar consents to the inclusion in this report of the matters based on his information in the profile and context that the information appears.

CAUTION REGARDING FORWARD LOOKING STATEMENTS

Information included in this release constitutes forward-looking statements. Often, but not always, forward looking statements can generally subsist identified by the consume of forward looking words such as "may", "will", "expect", "intend", "plan", "estimate", "anticipate", "continue", and "guidance", or other similar words and may include, without limitation, statements regarding plans, strategies and objectives of management, anticipated production or construction commencement dates and expected costs or production outputs.

Forward looking statements inherently involve known and unknown risks, uncertainties and other factors that may occasions the company's actual results, performance and achievements to disagree materially from any future results, performance or achievements. apposite factors may include, but are not limited to, changes in commodity prices, alien exchange fluctuations and universal economic conditions, increased costs and claim for production inputs, the speculative nature of exploration and project development, including the risks of obtaining necessary licences and permits and diminishing quantities or grades of reserves, political and companionable risks, changes to the regulatory framework within which the company operates or may in the future operate, environmental conditions including extreme weather conditions, recruitment and retention of personnel, industrial relations issues and litigation.

Forward looking statements are based on the company and its management's helpful faith assumptions relating to the financial, market, regulatory and other apposite environments that will exist and move the company's commerce and operations in the future. The company does not give any assurance that the assumptions on which forward looking statements are based will prove to subsist correct, or that the company's commerce or operations will not subsist affected in any material manner by these or other factors not foreseen or foreseeable by the company or management or beyond the company's control.

Although the company attempts and has attempted to identify factors that would occasions actual actions, events or results to disagree materially from those disclosed in forward looking statements, there may subsist other factors that could occasions actual results, performance, achievements or events not to subsist as anticipated, estimated or intended, and many events are beyond the reasonable control of the company. Accordingly, readers are cautioned not to space undue reliance on forward looking statements. Forward looking statements in these materials speak only at the date of issue. matter to any continuing obligations under applicable law or any apposite stock exchange listing rules, in providing this information the company does not undertake any duty to publicly update or revise any of the forward looking statements or to advise of any change in events, conditions or circumstances on which any such statement is based.

LITHIUM CLASSIFICATION AND CONVERSION FACTORS

Lithium grades are normally presented in percentages or parts per million (ppm). Grades of deposits are too expressed as lithium compounds in percentages, for sample as a percent lithium oxide (Li2O) content or percent lithium carbonate (Li2CO3) content.

Lithium carbonate equivalent ("LCE") is the industry benchmark terminology for, and is equivalent to, Li2CO3. consume of LCE is to provide data comparable with industry reports and is the total equivalent amount of lithium carbonate, assuming the lithium content in the deposit is converted to lithium carbonate, using the conversion rates in the table included below to pick up an equivalent Li2CO3value in percent. consume of LCE assumes 100% recovery and no process losses in the extraction of Li2CO3from the deposit.

Lithium resources and reserves are usually presented in tonnes of LCE or Li.

To convert the Li Inferred Mineral Resource of 532Mt @ 0.20% Li grade (as per the Competent Persons Report dated May 2016) to Li2O, the reported Li grade of 0.20% is multiplied by the benchmark conversion factor of 2.153 which results in an equivalent Li2O grade of 0.43%.

The benchmark conversion factors are set out in the table below:

Table: Conversion Factors for Lithium Compounds and Minerals

Convert from

 

Convert to Li

Convert to Li2O

Convert to Li2CO3

Lithium

Li

1.000

2.153

5.323

Lithium Oxide

Li2O

0.464

1.000

2.473

Lithium Carbonate

Li2CO3

0.188

0.404

1.000

 

WEBSITE

A copy of this announcement is available from the Company's website at www.europeanmet.com.

 

TECHNICAL GLOSSARY

The following is a summary of technical terms:

"ball and rod indices"

Indicies that provide an assessment of the energy required to grind one tonne of material in a ball or rod mill

"carbonate"

refers to a carbonate mineral such as calcite, CaCO3

"comminution"

The crushing and/or grinding of material to a smaller scale

"cut-off grade"

lowest grade of mineralised material considered economic, used in the calculation of Mineral Resources

"deposit"

coherent geological carcass such as a mineralised body

"exploration"

method by which ore deposits are evaluated

"flotation"

selectively separating hydrophobic materials from hydrophilic materials to upgrade the concentration of valuable minerals

"g/t"

gram per metric tonne

"grade"

relative quantity or the percentage of ore mineral or metal content in an ore body

"heavy liquid separation"

is based on the fact that different minerals hold different densities. Thus, if a compund of minerals with different densities can subsist placed in a liquid with an intermediate density, the grains with densities less than that of the liquid will float and grains with densities greater than the liquid will sink

 

"Indicated" or "Indicated Mineral Resource"

as defined in the JORC and SAMREC Codes, is that fraction of a Mineral Resource which has been sampled by drill holes, underground openings or other sampling procedures at locations that are too widely spaced to ensure continuity but immediate enough to give a reasonable indication of continuity and where geoscientific data are known with a reasonable degree of reliability. An Indicated Mineral Resource will subsist based on more data and therefore will subsist more dependable than an Inferred Mineral Resource estimate

 

"Inferred" or "Inferred Mineral Resource"

as defined in the JORC and SAMREC Codes, is that fraction of a Mineral Resource for which the tonnage and grade and mineral content can subsist estimated with a low flush of confidence. It is inferred from the geological evidence and has assumed but not verified geological and/or grade continuity. It is based on information gathered through the preempt techniques from locations such as outcrops, trenches, pits, working and drill holes which may subsist limited or of uncertain attribute and reliability

 

"JORC Code"

Joint Ore Reserve Committee Code; the Committee is convened under the auspices of the Australasian Institute of Mining and Metallurgy

"kt"

thousand tonnes

"LCE"

the total equivalent amount of lithium carbonate (see explanation above entitled Explanation of Lithium Classification and Conversion Factors)

"lithium"

a soft, silvery-white metallic ingredient of the alkali group, the lightest of everyone metals

"lithium carbonate"

the lithium salt of carbonate with the formula Li2CO3

"magnetic separation"

is a process in which magnetically susceptible material is extracted from a compund using a magnetic force

"metallurgical"

describing the science concerned with the production, purification and properties of metals and their applications

"Mineral Resource"

a concentration or incident of material of intrinsic economic interest in or on the Earth's crust in such a profile that there are reasonable prospects for the eventual economic extraction; the location, quantity, grade geological characteristics and continuity of a mineral resource are known, estimated or interpreted from specific geological evidence and knowledge; mineral resources are sub-divided into Inferred, Indicated and Measured categories

"mineralisation"

process of formation and concentration of elements and their chemical compounds within a mass or carcass of rock

"Mt"

million tonnes

"optical microscopy"

the determination of minerals by observation through an optical microscope

"ppm"

parts per million

"recovery"

proportion of valuable material obtained in the processing of an ore, stated as a percentage of the material recovered compared with the total material present

"resources"

Measured: a mineral resource intersected and tested by drill holes, underground openings or other sampling procedures at locations which are spaced closely enough to substantiate continuity and where geoscientific data are reliably known; a measured mineral resource assess will subsist based on a substantial amount of dependable data, interpretation and evaluation which allows a lucid determination to subsist made of shapes, sizes, densities and grades. Indicated: a mineral resource sampled by drill holes, underground openings or other sampling procedures at locations too widely spaced to ensure continuity but immediate enough to give a reasonable indication of continuity and where geoscientific data are known with a reasonable degree of reliability; an indicated resource will subsist based on more data, and therefore will subsist more dependable than an inferred resource estimate. Inferred: a mineral resource inferred from geoscientific evidence, underground openings or other sampling procedures where the need of data is such that continuity cannot subsist predicted with self-confidence and where geoscientific data may not subsist known with a reasonable flush of reliability

"SAGability"

testing material to investigate its performance in a semi-autonomous grinding mill

"spiral concentration"

a process that utilises the differential density of materials to concentrate valuable minerals

"stope"

underground excavation within the orebody where the main production takes place

"t"

a metric tonne

"tin"

A tetragonal mineral, rare; soft; malleable: bluish white, establish chiefly in cassiterite, SnO2

"treatment"

Physical or chemical treatment to extract the valuable metals/minerals

"tungsten"

hard, brittle, white or grey metallic element. Chemical symbol, W; too known as wolfram

"W"

chemical symbol for tungsten

 

 

ADDITIONAL GEOLOGICAL TERMS

"apical"

relating to, or denoting an apex

 

"cassiterite"

A mineral, tin dioxide, SnO2. Ore of tin with specific gravity 7

"cupola"

A dome-shaped projection at the top of an igneous intrusion

"dip"

the accurate duck of a plane is the angle it makes with the horizontal plane

"granite"

coarse-grained intrusive igneous rock dominated by light-coloured minerals, consisting of about 50% orthoclase, 25% quartz and equilibrium of plagioclase feldspars and ferromagnesian silicates

"greisen"

A pneumatolitically altered granitic rock composed largely of quartz, mica, and topaz. The mica is usually muscovite or lepidolite. Tourmaline, fluorite, rutile, cassiterite, and wolframite are common accessory minerals

"igneous"

said of a rock or mineral that solidified from molten or partly molten material, i.e., from a magma

"muscovite"

also known as potash mica; formula: KAl2(AlSi3O10)(F,OH)2.

"quartz"

a mineral composed of silicon dioxide, SiO2

"rhyolite"

An igneous, volcanic rock of felsic (silica rich) composition.  Typically >69% SiO2

 

"vein"

a tabular deposit of minerals occupying a fracture, in which particles may grow away from the walls towards the middle

"wolframite"

A mineral, (Fe,Mn)WO4; within the huebnerite-ferberite series

"zinnwaldite"

A mineral, KLiFeAl(AlSi3)O10 (F,OH)2; mica group; basal cleavage; pale violet, yellowish or greyish brown; in granites, pegmatites, and greisens

 

 

ENQUIRIES:

European Metals Holdings Limited

Keith Coughlan, Chief Executive Officer

 

 

Kiran Morzaria, Non-Executive Director

 

Julia Beckett, Company Secretary

 

Tel: +61 (0) 419 996 333

Email: keith@europeanmet.com

 

Tel: +44 (0) 20 7440 0647

 

Tel: +61 (0) 6141 3504

Email: julia@europeanmet.com

 

Beaumont Cornish (Nomad & Broker)

Michael Cornish

Roland Cornish

Tel: +44 (0) 20 7628 3396

Email: corpfin@b-cornish.co.uk

 

The information contained within this announcement is considered to subsist inside information, for the purposes of Article 7 of EU Regulation 596/2014, prior to its release.

 

Section 1 Sampling Techniques and Data

Criteria

JORC Code explanation

Commentary

Sampling techniques

·    Nature and attribute of sampling (eg nick channels, random chips, or specific specialised industry benchmark measurement tools preempt to the minerals under investigation, such as down pocket gamma sondes, or handheld XRF instruments, etc). These examples should not subsist taken as limiting the broad import of sampling.

·    In cases where 'industry standard' work has been done this would subsist relatively simple (eg 'reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g impregnate for fire assay'). In other cases more explanation may subsist required, such as where there is gross gold that has inherent sampling problems. Unusual commodities or mineralisation types (eg submarine nodules) may warrant disclosure of circumstantial information.

·      As previously, the Company is conducting its core drilling programme and collecting samples from core splits in line with JORC Code 2012 Edition guidelines.  Sample intervals honour geological or visible mineralisation boundaries. 

·      Between 1952 and 1989, the Cinovec deposit was sampled in two ways: in drill core and underground channel samples.

·      Channel samples, from drift ribs and faces, were collected during circumstantial exploration between 1952 and 1989 by Geoindustria n.p. and Rudne Doly n.p., both Czechoslovak condition companies. Sample length was 1 m, channel 10x5cm, sample mass about 15kg. Up to 1966, samples were collected using hammer and chisel; from 1966 a small drill (Holman Hammer) was used. 14179 samples were collected and transported to a crushing facility.

·      Core and channel samples were crushed in two steps: to -5mm, then to -0.5mm. 100g splits were obtained and pulverized to -0.045mm for analysis.

Drilling techniques

·    Drill sort (eg core, invert circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc) and details (e.g. core diameter, triple or benchmark tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc).

·      Current programme is conventional and wireline core drilling of the deposit with percussion precollars.

·      The current core size is HQ3 (62mm diameter) in upper parts of holes; in deeper sections the core size is reduced to NQ3 (44mm diameter). Core recovery is elevated (average exceeds 95%).

·      Historically only core drilling was employed, either from surface or from underground. 

·      Surface drilling: 80 holes, total 30,340 meters; perpendicular and inclined, maximum depth 1596m (structural hole). Core diameters from 220mm near surface to 110 mm at depth. average core recovery 89.3%.

·      Underground drilling: 766 holes for 53,126m; horizontal and inclined. Core diameter 46mm; drilled by Craelius XC42 or DIAMEC drills.

Drill sample recovery

·    fashion of recording and assessing core and chip sample recoveries and results assessed.

·    Whether a relationship exists between sample recovery and grade and whether sample prejudice may hold occurred due to preferential loss/gain of fine/coarse material.

·      Core recovery for historical surface drill holes was recorded on drill logs and entered into the database.

·      No correlation between grade and core recovery was established.

Logging

·    Whether core and chip samples hold been geologically and geotechnically logged to a flush of detail to support preempt Mineral Resource estimation, mining studies and metallurgical studies.

·    The total length and percentage of the apposite intersections logged.

·      The core descriptions are recorded into paper logging forms by hand and later entered into an excel database.

·      The historic core was logged in detail in a facility 6 km from the mine site.  The following features were logged and recorded in paper logs: lithology, alteration (including intensity divided into weak, medium and strong/pervasive), and incident of potentially economic minerals expressed in %, macroscopic description of congruous intervals and structures and core recovery.

Sub-sampling techniques and sample preparation

·    If core, whether nick or sawn and whether quarter, half or everyone core taken.

·    Whether sample sizes are preempt to the grain size of the material being sampled.

·      Core is washed, photographed, geologically logged, sample intervals determined and marked then the core is nick in half. One half is delivered to ALS Global for assaying after duplicates, blanks and standards are inserted in the sample stream. The remaining drill core is stored on site for reference.

·      Sample preparation is carried out by ALS Global in Romania, using industry benchmark techniques preempt for the style of mineralisation represented at Cinovec.

·      Historically, core was either split or consumed entirely for analyses.

·      Samples are considered to subsist representative.

·      Sample size and grains size are deemed preempt for the analytical techniques used.

 

Quality of assay data and laboratory tests

·    The nature, attribute and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total.

·    Nature of attribute control procedures adopted (eg standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (i.e. need of bias) and precision hold been established.

·      Core samples are assayed by ALS Global. The most preempt analytical methods were determined by results of tests using various analytical techniques.

·      The following analytical methods are used: ME-MS81 (lithium borate fusion or 4 acid digest, ICP-MS finish) for a suite of elements including Sn and W and ME-4ACD81 (4 acid digest, ICP-AES finish) additional elements including lithium. Samples with over 1% tin are analysed by XRF.

·      Standards, blanks and duplicates are inserted into the sample stream.  In 2014 initial tin benchmark results indicated practicable downgrading bias; the laboratory repeated the analysis with satisfactory results. 

·      Historically, tin content was measured by XRF and using dank chemical methods. W and Li were analysed by spectral methods.

·      Analytical QA was internal and external.  The former subjected 5% of the sample to repeat analysis in the very facility.  10% of samples were analysed in another laboratory, too located in Czechoslovakia. The QA/QC procedures were set to the condition norms and are considered adequate. It is unknown whether external standards or sample duplicates were used.

·      Overall accuracy of sampling and assaying was proved later by test mining and reconciliation of mined and analysed grades.

Verification of sampling and assaying

·    The verification of significant intersections by either independent or alternative company personnel.

·    argue any adjustment to assay data.

·      During the 2014 drill crusade the Company indirectly verified grades of tin and lithium by comparing the length and grade of mineral intercepts with the current conceal model.

Location of data points

·    Accuracy and attribute of surveys used to locate drill holes (collar and down-hole surveys), trenches, mine workings and other locations used in Mineral Resource estimation.

·    attribute and adequacy of topographic control.

·      The drill collar locations are surveyed by a registered surveyor.

·      Down pocket surveys are carried out by a contractor.

·      Historically, drill pocket collars were surveyed with a remarkable degree of precision by the mine survey crew.

·      pocket locations are recorded in the local S-JTSK Krovak grid.

·      Topographic control is excellent.

Data spacing and distribution

·    Data spacing for reporting of Exploration Results.

·    Whether sample compositing has been applied.

·      Historical data density is very high. 

·      Spacing is adequate to establish Indicated and Inferred Mineral Resources (see notes on classification below). The Mineral Resource was initially estimated using MICROMINE software in Perth, 2012 and updated in 2015.

·      Areas with lower coverage of Li% assays hold been identified as exploration targets.

·      Sample compositing has not been applied.

Orientation of data in relation to geological structure

·    Whether the orientation of sampling achieves unbiased sampling of practicable structures and the extent to which this is known, considering the deposit type.

·    If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to hold introduced a sampling bias, this should subsist assessed and reported if material.

·      Drill pocket azimuth and duck is planned to intercept the mineralized zones at near-true thickness.  As the mineralized zones duck shallowly to the south, drill holes are perpendicular or near perpendicular and directed to the north.

·      The Company has not directly collected any samples underground because the workings are inaccessible at this time. 

·      Based on historic reports, flush diagram maps, sections and core logs, the samples were collected in an unbiased fashion, systematically on two underground levels from drift ribs and faces, as well as from underground holes drilled perpendicular to the drift directions.  The sample density is adequate for the style of deposit.

·      Multiple samples were taken and analysed by the Company from the historic tailing repository. Only lithium was analysed (Sn and W too low).  The results matched the historic grades.

Sample security

·    The measures taken to ensure sample security.

·      As in the 2014 programme, only the Company's employees and contractors ply drill core and conduct sampling. The core is collected from the drill rig each day and transported in a company vehicle to the secure Company premises where it is photographed, logged and cut.  Company geologists overlook the process and log/sample the core.   The samples are transported by Company personnel in a Company vehicle to the ALS Global laboratory pick-up station. The remaining core is stored under lock and key.

·      Historically, sample security was ensured by condition norms applied to exploration.  The condition norms were similar to currently accepted best rehearse and JORC Code guidelines for sample security.

Audits or reviews

·    The results of any audits or reviews of sampling techniques and data.

·      Review of sampling techniques practicable from written records. No flaws found.

Section 2 Reporting of Exploration Results

Criteria

JORC Code explanation

Commentary

Mineral tenement and land tenure status

·    Type, reference name/number, location and ownership including agreements or material issues with third parties such as joint ventures, partnerships, overriding royalties, endemic title interests, historical sites, wilderness or national park and environmental settings.

·    The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area.

·      Cinovec exploration rights held under two licenses Cinovec and Cinovec 2.  Former expires 30/7/2019, the latter 31/12/2020.

·      100% owned, no royalties, endemic interests or environmental concerns.

·      There are no known impediments to obtaining an Exploitation Permit for the defined resource.

Exploration done by other parties

·    Acknowledgment and appraisal of exploration by other parties.

·      There has been no acknowledgment or appraisal of exploration by other parties.

Geology

·    Deposit type, geological setting and style of mineralisation.

·      Cinovec is a granite-hosted tin-tungsten-lithium deposit.

·      Late Variscan age, alkalic rift-related granite.

·      Tin and tungsten occur in oxide minerals (cassiterite and wolframite). Lithium occurs in zinnwaldite, a Li-rich muscovite

·      Mineralisation in a small granite cupola.  Vein and greisen type. Alteration is greisenisation, silicification.

Drill pocket Information

·    A summary of everyone information material to the understanding of the exploration results including a tabulation of the following information for everyone Material drill holes:

o easting and northing of the drill pocket collar

o elevation or RL (Reduced flush - elevation above sea flush in metres) of the drill pocket collar

o duck and azimuth of the hole

o down pocket length and interception depth

o pocket length.

·    If the exclusion of this information is justified on the basis that the information is not Material and this exclusion does not detract from the understanding of the report, the Competent Person should clearly elaborate why this is the case.

·      Reported previously.

Data aggregation methods

·    In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum grade truncations (eg cutting of elevated grades) and cut-off grades are usually Material and should subsist stated.

·    The assumptions used for any reporting of metal equivalent values should subsist clearly stated.

·      Reporting of exploration results has not and will not comprehend aggregate intercepts.

·      Metal equivalent not used in reporting.

·      No grade truncations applied.

Relationship between mineralisation widths and intercept lengths

·    These relationships are particularly well-known in the reporting of Exploration Results.

·    If it is not known and only the down pocket lengths are reported, there should subsist a lucid statement to this result (eg 'down pocket length, accurate width not known').

·      Intercept widths are approximate accurate widths, unless noted.

·      The mineralization is mostly of disseminated nature and relatively homogeneous; the orientation of samples is of limited impact. 

·      For higher grade veins keeping was taken to drill at angles ensuring closeness of intercept length and accurate widths

·      The conceal model accounts for variations between evident and accurate dip.

Diagrams

·    preempt maps and sections (with scales) and tabulations of intercepts should subsist included for any significant discovery being reported These should include, but not subsist limited to a diagram view of drill pocket collar locations and preempt sectional views.

·      preempt maps and sections hold been generated by the Company, and independent consultants. Available in customary vector and raster outputs, and partially in consultant's reports.

Balanced reporting

·    Where comprehensive reporting of everyone Exploration Results is not practicable, representative reporting of both low and elevated grades and/or widths should subsist practiced to avoid delusory reporting of Exploration Results.

·      Balanced reporting in historic reports guaranteed by norms and standards, verified in 1997, and 2012 by independent consultants.

·      The historic reporting was completed by several condition institutions and cross validated.

Other substantive exploration data

·    Other exploration data, if meaningful and material, should subsist reported including (but not limited to): geological observations; geophysical survey results; geochemical survey results; bulk samples - size and fashion of treatment; metallurgical test results; bulk density, groundwater, geotechnical and rock characteristics; potential deleterious or contaminating substances.

·      Data available: bulk density for everyone representative rock and ore types; petrographic and mineralogical studies, hydrological information, hardness, moisture content, fragmentation etc.

Further work

·    The nature and scale of planned further work (eg tests for lateral extensions or depth extensions or large-scale step-out drilling).

·    Diagrams clearly highlighting the areas of practicable extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive.

·      Grade verification sampling from underground or drilling from surface (in progress).  Historically-reported grades require modern validation in order to ameliorate the resource classification.

·      The number and location of sample sites hold been determined from a 3D wireframe model and geostatistical considerations reflecting grade continuity. 

·      The geologic model will subsist used to determine if infill drilling is required.

·      The deposit is open down-dip on the southern extension, and locally poorly constrained at its western and eastern extensions, where limited additional drilling might subsist required.  

·      No large scale drilling campaigns are required.

 

 


How Innovators Are Bridging Gaps Between Classrooms and Jobs | killexams.com true questions and Pass4sure dumps

This post is by Bryant Best, who works in the Innovation Lab Network for the Council of Chief condition School Officers. Find him on Twitter @dr_bryantbest.

What if I told you that the land of the American Dream has over 5.5 million job openings that employers are desperate to fill? And what if I told you that young, educated people are hungry to start their careers and their own American Dream, only to find out that they don't hold the credentials necessary to begin?

Some might screech that there is a skills gap. Others might screech there is an opening gap. Whatever the case, one thing is clear: Educators and industry leaders aren't communicating on what needs to subsist done to prepare their students for high-demand, high-wage jobs. And eventual month, Jobs for the Future hosted a pinnacle to address just that.

Jobs for the Future is a national nonprofit committed to providing educational and economic opportunities for every American by artery of innovative career pathways, policies, and resources that lead to more college and career ready individuals, a highly skilled workforce, and overall economic growth. In June 2016, the organization hosted a national pinnacle in current Orleans, Louisiana titled "Voices for opening and Economic Mobility." At this summit, more than 650 employers, educators, policymakers and researchers convened to argue key issues that arise in this work and true solutions to decipher them. 

As an education professional who is extremely passionate about empowering traditionally underserved communities, I was particularly intrigued by and honestly a bit skeptical of some of the session titles and descriptions. Are these presenters going to speak on the accurate "barriers to economic mobility" or will they blow smoke? Is it feasible to deem "tax policy as a means of generating wealth for everyone Americans" or will the session takeaway amount to a promising understanding that requires further exploration? hold these national experts really establish current ways to "braid federal, state, and private funding to support local innovative career pathways" or will the suggestions provided drop short as district and school leaders hang their heads in defeat?

Let me subsist the first to screech that this pinnacle did not disappoint.

One compelling breakout discussed how to build Cybersecurity pathways in elevated school and college. Cybersecurity is a high-demand, high-wage domain that is expected to hold approximately 1.5 million current job openings within the next four years. With this in mind, Reserve Officers' Training Corps (ROTC) and Information Technology (IT) instructors at Montachusett Regional Vocational Technical School (Monty Tech) are teaming up to offer their students cybersecurity boot camps that will prepare them to later become Information Security Officers, Cyber Threat Analysts, and even Behavioral Analysts, everyone while teaching them the captious deeper learning skills of efficacious communication, collaboration, and an academic mindset. Not only is Monty Tech committed to developing a set of Cybersecurity Competencies that are specific to individual fields such as health and finance, but its students regularly compete in CyberPatriot, a national youth cyber education program and competition hosted by the Air force Association. Monty Tech students are so immersed in the opportunities the competition provides that they have, in the past, used their first space prize money to further their own education in the field. In addition to engaging in a national network of cyber education professionals and future professionals, Monty Tech students too hold the opening to earn industry-recognized certifications in computer service and website development programs, such as A+ and CIW, that prepare them for both college and career.

Similarly, the John Jay College of Criminal Justice (JJC) offers a major in Computer Science and Information Security, along with technology-focused career advising and a credit-bearing, semester-long Virtual Internship co-taught by JJC faculty and a professional in the field, such as an employee at the Federal Reserve Bank of current York. The internship gives students opportunities to perform real-world risk assessments that befriend reputable companies maintain best practices of security while simultaneously building up the student's digital portfolio.  Industry mentors from firms such as Morgan Stanley and BlackRock provide continuous, personalized feedback to students, and students commonly conclude their internship with a notable reference, resume support, and a sequence of mock interviews. With everyone this in place, it's no prodigy that approximately half of JJC graduates fade on to work in public service such as the current York Police Department, the Federal Bureau of Investigation, and the Office of the District Attorney. Considering the fact that 50 percent of JJC's students are the first in their family to fade to college and that 80 percent of JJC students graduate debt-free, these are the types of partnerships that stride the needle on economic mobility. And with programs love GenCyber offering generous amounts of funding and support to Cybersecurity enthusiasts--students and teachers alike--this pathway shows tons of promise.

So once a district or condition leader has a promising pathway to invest in, how does he or she bring it to scale? This question was answered in a different breakout, using examples from two Pathways to Prosperity (P2P) states. In Tennessee, education stakeholders desired to befriend students better meet industry needs. So they created several statewide pathway initiatives, including the Tennessee Promise, Tennessee Leap, and Workforce 360. Collectively, these and other programs disarrange for students to receive up to two years of free community college education, learn the skills employers need most, and hit the workforce running. Tennessee has maximized program effectiveness by establishing communities that comprehend stakeholders in K-12 education, the Tennessee Higher Education Commission, and the Tennessee commerce Roundtable.

Delaware, another P2P state, is too a recipient of the current Skills for Youth concede awarded by the Council of Chief condition School Officers (CCSSO). Delaware has a statewide focus on credentialing work suffer that addresses specific employer needs and funding to further the education of elevated school graduates, courtesy of condition Gov. Jack Markell. Since dawn this work, the condition has hosted two Pathways Conferences and is in the process of developing a strategic diagram that incorporates feedback from educators, employers and the universal public. Delaware's next steps comprehend creating a public funding structure for the pathways system, implementing summer training programs for career and technical education teachers, and developing a policy framework to scale work-based learning.

The Innovation Lab Network at CCSSO too works with states to tackle issues of college and career readiness. One sample is their working group on Career Readiness and Competency Based Education (CBE), which will give condition leaders a haphazard to convene and argue how to best define career pathways in terms of competencies, integrate academic and career pathways, and ensure the accessibility and attribute of career ready models of teaching and learning. Those interested in promoting career readiness within their state, district, or school are encouraged to connect with organizations such as CCSSO and JFF.  


Drill Programme Completed & Czech Manager designate | killexams.com true questions and Pass4sure dumps

For immediate release

16 January 2017

EUROPEAN METALS HOLDINGS LIMITED

DRILL PROGRAMME COMPLETED AND

APPOINTMENT OF CZECH COUNTRY MANAGER

 

European Metals Holdings Limited ("European Metals" or "the Company") (ASX and AIM: EMH) is pleased to publish that the planned core drillhole programme was completed on time and budget, without time loss incidents.  In total 17 drillholes were drilled to a summary depth of 6081 meters.  Analytical results for the CIW-10 and CIW-23 are reported in this announcement.

The Company is too pleased to publish the appointment of a highly experienced mining executive to the role of Country Manager.

Key Points:

  • Analytical results for further two drillholes at Cinovec Main confirmed or exceeded the expected lithium  content and mineralization widths.

  • One drillhole is located at the western edge of the deposit near the contact of the mineralisation.  The other drillhole is located in the central fraction of Cinovec Main. This pocket has returned the best lithium interval to date.

  • Hole CIW-23 recorded an interval of 261.1m averaging 0.50%Li2O (including high-grade intervals 23.9m@0.81%Li2O, 8m@1.05%Li2O, 4m@1.17%Li2O, 4m@1.41%Li2O, and 6m@0.95%Li2O. In addition, significant tin and tungsten mineralisation is recorded:  11 meters averaging 0.081% tungsten, 5 meters averaging 0.14% tin and 1 meter averaging 1.2% tin, and 2 meters averaging 0.088% tungsten.

  • Hole CIW-10 reported an intercept of 223.9m averaging 0.43% Li2O.

  • All core samples for the remaining 5 holes hold been delivered to the analytical laboratory with results expected to subsist delivered by the conclude of January.

  • Geological information from everyone 17 drillholes has been compiled into the Cinovec database and serves to update the geological model for Cinovec Main.  The geologic model will subsist used to constrain and update the current conceal model.  The conceal model will subsist updated in early February when everyone analyses will subsist received. The conceal model and resource calculation will subsist fraction of the Pre-Feasibility Study planned for release in April 2017.

  • The Company welcomes the appointment of Mr Richard Pavlik to the position of universal Manager of the Company's Czech subsidiary Geomet s.r.o.

  • Geomet holds the licences for the Company's 100% owned Cinovec Project in the Czech Republic. Mr Pavlik holds a Masters Degree in Mining Engineer from the Technical University of Ostrava in Czech Republic. He is the former Chief Project Manager and Advisor to the Chief Executive Officer at OKD. OKD has been a major coal producer in the Czech Republic.  He has almost 30 years of apposite industry suffer in the Czech Republic. Mr Pavlik too has suffer as a Project Analyst at Normandy Capital in Sydney as fraction of a postgraduate programme from Swinburne University.      

    Mr Pavlik has held previous senior positions within OKD and current World Resources as Chief Engineer, and as Head of Surveying and Geology. He has too served as the Head of the Supervisory Board of NWR Karbonia, a Polish subsidiary of current World Resources (UK) Limited. Mr Pavlik's primary responsibilities will subsist to manage the in-country aspects of the Cinovec development programme, coordinate technical work and liaise with Government authorities on permitting and licensing of the project.

    European Metals CEO Mr Keith Coughlan said: "I am very pleased that they hold finished the drilling programme on time and without any accidents.  These latest results highlight the substantial mineralisation at Cinovec and the opportunities available to target higher grade areas within these zones.

    When everyone results are received, they will upgrade the conceal model and finalise the resource assess for the Pre-feasibility study. They expect further conversion of inferred to indicated resources to occur as fraction of this re-modelling.

    I would too love to welcome Richard Pavlik as their Country Manager. Richard has extensive suffer in the Czech Mining Community and will subsist a huge asset in providing in-country information and capability during the feasibility, permitting and development process."

    Drill Programme

    The CIW-10 and CIW-23 were drilled at the western edge, and in the central part, respectively, of the Cinovec Main sector of the deposit (see device 1). 

    The current drill programme at Cinovec Main has been planned to substantiate and delineate near surface lithium and tin mineralisation that would provide initial feed to the mill. Other goals are the conversion of resources from the Inferred to Indicated category, and delivery of material for metallurgical testing.  So far, ten diamond core holes hold been completed, and three are underway.  Visual inspection and logging indicates that the geology in these holes is as expected. Drill details are listed in Table 1 below.

    After geological logging, drill core is nick in half with a diamond saw.  Quarter core samples are selected (honouring geological boundaries) and dispatched to ALS (Romania) for preparation and assay; the 3/4 of the core is returned to the core box and stored securely on site.  Samples are being prepared and analysed by ALS using ICP and XRF techniques following benchmark industry rehearse for lithium and tin deposits.  Strict QAQC protocols are observed, including the insertion of a Li benchmark in random vogue for every 10 core samples, as well as the insertion of blank and duplicate samples.

    Table 1 - Completed drillholes, Cinovec Main

    Hole ID

    North

    East

    Elevation (m)

    Depth (m)

    Azimuth

    Dip

    Comments

    CIW-11

    -779299.50

    -966097.50

    867.40

    444.4

    40.10

    -77.86

    confirmation/infill

    CIW-20

    -778810.50

    -965638.00

    837.50

    257.6

    336.70

    -84.60

    confirmation/infill

    CIW-13

    -779175.50

    -966126.84

    862.80

    429.3

    76.00

    -80.40

    confirmation/infill

    CIW-19

    -778810.80

    -965692.10

    837.80

    271.6

    332.10

    -89.58

    confirmation/infill

    CIW-08

    -778791.39

    -965800.23

    837.60

    274.9

    156.85

    -89.30

    confirmation/infill

    CIW-18

    -779018.59

    -966182.61

    855.47

    395.7

    210.60

    -89.05

    confirmation/infill

    CIW-14

    -779055.85

    -966093.30

    854.46

    417.8

    323.30

    -89.07

    confirmation/infill

    CIW-07

    -778867.31

    -965841.48

    840.99

    300.0

    333.60

    -89.57

    confirmation/infill

    CIW-26

    -779214.82

    -965937.24

    865.33

    430.5

    248.00

    -89.38

    confirmation/infill

    CIW-17

    -778957.07

    -965520.58

    847.07

    238.2

    332.10

    -89.58

    confirmation/infill

    CIW-21

    -778811.80

    -965952.31

    841.33

    320.6

    42.68

    -89.02

    confirmation/infill

    CIW-10

    -779215.43

    -965938.41

    865.35

    455.0

    303.40

    -74.47

    confirmation/infill

    CIW-23

    -779008.92

    -965993.87

    848.91

    376.1

    222.30

    -89.40

    confirmation/infill

    CIW-22

    -779009.34

    -965993.42

    848.88

    420.6

    287.90

    -70.43

    confirmation/infill

    CIW-06

    -778995.26

    -965844.93

    846.77

    296.3

    11.70

    -80.18

    confirmation/infill

    CIW-25

    -778994.45

    -965901.56

    847.04

    382.4

    281.10

    -69.89

    confirmation/infill

    CIW-27

    -779152.42

    -965816.56

    861.50

    370.0

    271.90

    -89.53

    confirmation/infill

    Hole locations are recorded in the local S-JTSK Krovak grid, everyone coordinates are surveyed.

    Mineralized Intercepts and Lithology

    The drillhole CIW-10 was located near the granite-porphyry contact, testing lithium mineralisation near the western termination of the deposit. In this location, at the W and NW fraction of the deposit, the contact is relatively steeply dipping.  The CIW-10 drillhole was angled at 75 degrees to the W, and collared in the barren porphyry.  At 213 m down the drill axis the porphyry-granite contact was intersected at a depth predicted by the Company's geologic model.  The contact is marked by brecciated pegmatite, and immediately below it the granite is greisenized and mineralized in lithium.  The interval from 213m to 429m is formed by variably greisenized granite containing 5 to 15% of zinnwaldite, the lithium-bearing mica.  The footwall to the greisenized granite is a low-mica granite, in which the drillhole was terminated at 455m.  The core angles of contacts are steeper than usually (about 20 to 40 degrees), and as the core was not oriented, it is impossible to ascertain with certitude the orientation of the mineralized zones.  Therefore, the mineralized intercept may not delineate accurate width. 

    The drillhole CIW-23 was collared in the central fraction of the Cinovec-Main deposit where the Cinovec lithium granite daylights.  First 119m of the core are formed by sericite-albite (locally hematized) granite.  Between 116 and 119 the drill intersected a historic backfilled stope after mining elevated grade tin-tungsten quartz veins in the 1960's. The interval between 119m and 388.3m is formed by variably greisenized granite that carries zinnwaldite.  Locally stopes, narrow quartz veins or massive greisens were intersected in this interval.  The footwall to the greisenized granite is a low-mica granite, in which the drillhole was terminated at 376.1m.

    The Tables below list the mineralised intercepts from everyone two drillholes. 

    Table summarizing mineralised intercepts in CIW-23

    CIW-23

    From

    To

    Interval (m)

    Li2O (%)

    Sn (%)

    W (%)

    Note

    8.1

    35.5

    27.4

    0.23

     

     

     

    58

    74

    16

    0.21

     

     

     

    94

    357

    261.1 *)

    0.50

     

     

    incl. 23.9m@0.81%Li2O (117.1-141m),8m@1.05%Li2O (133-141m),4m@1.17%Li2O (162-166m),4m@1.41%Li2O (224-228m),6m@0.95%Li2O (296-302m)

    92

    93

    1

    0.37

    0.20

    0.033

     

    124

    135

    11

    0.83

    0.02

    0.081

     

    147

    147.8

    0.8

    0.76

    0.005

    0.115

     

    162

    164

    2

    1.66

    0.02

    0.088

     

    243

    248

    5

    0.47

    0.14

    0.022

     

    Cut-off: 0.2%Li2O, 0.1%Sn, 0.05%W *) intercept shorter by mined-out cavities

     

    Table summarizing mineralised intercepts in CIW-10

    CIW-10

    From

    To

    Interval (m)

    Li2O (%)

    Sn (%)

    W (%)

    Note

    213.1

    437

    223.9

    0.43

     

     

    incl. 1.9m@1.04%Li2O (213.1-215m),2m@0.99%Li2O (306-308m),1.05m@1.40%Li2O (406.2-407.25m)

    447

    451

    4

    0.26

     

     

     

    213.1

    214

    0.9

    1.46

    0.17

    0.004

     

    331

    332

    1

    0.38

    0.18

    0.002

     

    Cut-off: 0.2%Li2O, 0.1%Sn, 0.05%W

     

     (Please mention to the announcement on the European Metals Website for the graphic device 1 - A geological map showing the Company's drill holes against surface geology and subsurface greisen bodies projected to surface (in green). Historic UG workings and drill holes not shown - www.europeanmet.com.)

     

    BACKGROUND INFORMATION ON CINOVEC

    PROJECT OVERVIEW

    Cinovec Lithium/Tin Project

    European Metals owns 100% of the Cinovec lithium-tin deposit in the Czech Republic. Cinovec is an historic mine incorporating a significant undeveloped lithium-tin resource with by-product potential including tungsten, rubidium, scandium, niobium and tantalum and potash. Cinovec hosts a globally significant difficult rock lithium deposit with a total Indicated Mineral Resource of 49.1Mt @ 0.43% Li2O and an Inferred Mineral Resource of 482Mt @ 0.43% Li2O containing a combined 5.7 million tonnes Lithium Carbonate Equivalent.

    This makes Cinovec the largest lithium deposit in Europe and the fourth largest non-brine deposit in the world.

    Within this resource lies one of the largest undeveloped tin deposits in the world, with total Indicated Mineral Resource of 15.7Mt @ 0.26% Sn and an Inferred Mineral Resources of 59.7 Mt grading 0.21% Sn for a combined total of 178kt of contained tin. The Mineral Resource Estimates hold been previously released on 18 May 2016. The deposit has previously had over 400,000 tonnes of ore mined as a crucible sub-level open stope underground mining operation.

    A Scoping Study conducted by specialist independent consultants indicates the deposit could subsist amenable to bulk underground mining. Metallurgical test work has produced both battery grade lithium carbonate and high-grade tin concentrate at excellent recoveries with the Scoping Study. Cinovec is centrally located for European end-users and is well serviced by infrastructure, with a sealed road adjacent to the deposit, rail lines located 5 km north and 8 km south of the deposit and an active 22 kV transmission line running to the historic mine. As the deposit lies in an active mining region, it has tenacious community support.

     

    CONTACT

    For further information on this update or the Company generally, tickle visit their website at www. http://europeanmet.com or contact:

    Mr. Keith CoughlanManaging Director

     

    COMPETENT PERSON

    Information in this release that relates to exploration results is based on information compiled by European Metals Director Dr Pavel Reichl. Dr Reichl is a Certified Professional Geologist (certified by the American Institute of Professional Geologists), a member of the American Institute of Professional Geologists, a Fellow of the Society of Economic Geologists and is a Competent Person as defined in the 2012 edition of the Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves and a Qualified Person for the purposes of the point Guidance Note on Mining and Oil & Gas Companies dated June 2009. Dr Reichl consents to the inclusion in the release of the matters based on his information in the profile and context in which it appears. Dr Reichl holds CDIs in European Metals.

    The information in this release that relates to Mineral Resources and Exploration Targets has been compiled by Mr Lynn Widenbar. Mr Widenbar, who is a Member of the Australasian Institute of Mining and Metallurgy, is a plenary time employee of Widenbar and Associates and produced the assess based on data and geological information supplied by European Metals. Mr Widenbar has adequate suffer that is apposite to the style of mineralisation and sort of deposit under consideration and to the activity that he is undertaking to qualify as a Competent Person as defined in the JORC Code 2012 Edition of the Australasian Code for Reporting of Exploration Results, Minerals Resources and Ore Reserves. Mr Widenbar consents to the inclusion in this report of the matters based on his information in the profile and context that the information appears.

    CAUTION REGARDING FORWARD LOOKING STATEMENTS

    Information included in this release constitutes forward-looking statements. Often, but not always, forward looking statements can generally subsist identified by the consume of forward looking words such as "may", "will", "expect", "intend", "plan", "estimate", "anticipate", "continue", and "guidance", or other similar words and may include, without limitation, statements regarding plans, strategies and objectives of management, anticipated production or construction commencement dates and expected costs or production outputs.

    Forward looking statements inherently involve known and unknown risks, uncertainties and other factors that may occasions the company's actual results, performance and achievements to disagree materially from any future results, performance or achievements. apposite factors may include, but are not limited to, changes in commodity prices, alien exchange fluctuations and universal economic conditions, increased costs and claim for production inputs, the speculative nature of exploration and project development, including the risks of obtaining necessary licences and permits and diminishing quantities or grades of reserves, political and companionable risks, changes to the regulatory framework within which the company operates or may in the future operate, environmental conditions including extreme weather conditions, recruitment and retention of personnel, industrial relations issues and litigation.

    Forward looking statements are based on the company and its management's helpful faith assumptions relating to the financial, market, regulatory and other apposite environments that will exist and move the company's commerce and operations in the future. The company does not give any assurance that the assumptions on which forward looking statements are based will prove to subsist correct, or that the company's commerce or operations will not subsist affected in any material manner by these or other factors not foreseen or foreseeable by the company or management or beyond the company's control.

    Although the company attempts and has attempted to identify factors that would occasions actual actions, events or results to disagree materially from those disclosed in forward looking statements, there may subsist other factors that could occasions actual results, performance, achievements or events not to subsist as anticipated, estimated or intended, and many events are beyond the reasonable control of the company. Accordingly, readers are cautioned not to space undue reliance on forward looking statements. Forward looking statements in these materials speak only at the date of issue. matter to any continuing obligations under applicable law or any apposite stock exchange listing rules, in providing this information the company does not undertake any duty to publicly update or revise any of the forward looking statements or to advise of any change in events, conditions or circumstances on which any such statement is based.

    LITHIUM CLASSIFICATION AND CONVERSION FACTORS

    Lithium grades are normally presented in percentages or parts per million (ppm). Grades of deposits are too expressed as lithium compounds in percentages, for sample as a percent lithium oxide (Li2O) content or percent lithium carbonate (Li2CO3) content.

    Lithium carbonate equivalent ("LCE") is the industry benchmark terminology for, and is equivalent to, Li2CO3. consume of LCE is to provide data comparable with industry reports and is the total equivalent amount of lithium carbonate, assuming the lithium content in the deposit is converted to lithium carbonate, using the conversion rates in the table included below to pick up an equivalent Li2CO3value in percent. consume of LCE assumes 100% recovery and no process losses in the extraction of Li2CO3from the deposit.

    Lithium resources and reserves are usually presented in tonnes of LCE or Li.

    To convert the Li Inferred Mineral Resource of 532Mt @ 0.20% Li grade (as per the Competent Persons Report dated May 2016) to Li2O, the reported Li grade of 0.20% is multiplied by the benchmark conversion factor of 2.153 which results in an equivalent Li2O grade of 0.43%.

    The benchmark conversion factors are set out in the table below:

    Table: Conversion Factors for Lithium Compounds and Minerals

    Convert from

     

    Convert to Li

    Convert to Li2O

    Convert to Li2CO3

    Lithium

    Li

    1.000

    2.153

    5.323

    Lithium Oxide

    Li2O

    0.464

    1.000

    2.473

    Lithium Carbonate

    Li2CO3

    0.188

    0.404

    1.000

     

    WEBSITE

    A copy of this announcement is available from the Company's website at www.europeanmet.com.

    TECHNICAL GLOSSARY

    The following is a summary of technical terms:

    "carbonate"

    refers to a carbonate mineral such as calcite, CaCO3

    "cut-off grade"

    lowest grade of mineralised material considered economic, used in the calculation of Mineral Resources

    "deposit"

    coherent geological carcass such as a mineralised body

    "exploration"

    method by which ore deposits are evaluated

    "g/t"

    gram per metric tonne

    "grade"

    relative quantity or the percentage of ore mineral or metal content in an ore body

    "Indicated" or "Indicated Mineral Resource"

    as defined in the JORC and SAMREC Codes, is that fraction of a Mineral Resource which has been sampled by drill holes, underground openings or other sampling procedures at locations that are too widely spaced to ensure continuity but immediate enough to give a reasonable indication of continuity and where geoscientific data are known with a reasonable degree of reliability. An Indicated Mineral Resource will subsist based on more data and therefore will subsist more dependable than an Inferred Mineral Resource estimate

     

    "Inferred" or "Inferred Mineral Resource"

    as defined in the JORC and SAMREC Codes, is that fraction of a Mineral Resource for which the tonnage and grade and mineral content can subsist estimated with a low flush of confidence. It is inferred from the geological evidence and has assumed but not verified geological and/or grade continuity. It is based on information gathered through the preempt techniques from locations such as outcrops, trenches, pits, working and drill holes which may subsist limited or of uncertain attribute and reliability

     

    "JORC Code"

    Joint Ore Reserve Committee Code; the Committee is convened under the auspices of the Australasian Institute of Mining and Metallurgy

    "kt"

    thousand tonnes

    "LCE"

    the total equivalent amount of lithium carbonate (see explanation above entitled Explanation of Lithium Classification and Conversion Factors)

    "lithium"

    a soft, silvery-white metallic ingredient of the alkali group, the lightest of everyone metals

    "lithium carbonate"

    the lithium salt of carbonate with the formula Li2CO3

    "Measured" or Measured Mineral Resources"

    Measured: a mineral resource intersected and tested by drill holes, underground openings or other sampling procedures at locations which are spaced closely enough to substantiate continuity and where geoscientific data are reliably known; a measured mineral resource assess will subsist based on a substantial amount of dependable data, interpretation and evaluation which allows a lucid determination to subsist made of shapes, sizes, densities and grades. Indicated: a mineral resource sampled by drill holes, underground openings or other sampling procedures at locations too widely spaced to ensure continuity but immediate enough to give a reasonable indication of continuity and where geoscientific data are known with a reasonable degree of reliability; an indicated resource will subsist based on more data, and therefore will subsist more dependable than an inferred resource estimate. Inferred: a mineral resource inferred from geoscientific evidence, underground openings or other sampling procedures where the need of data is such that continuity cannot subsist predicted with self-confidence and where geoscientific data may not subsist known with a reasonable flush of reliability

    "metallurgical"

    describing the science concerned with the production, purification and properties of metals and their applications

    "Mineral Resource"

    a concentration or incident of material of intrinsic economic interest in or on the Earth's crust in such a profile that there are reasonable prospects for the eventual economic extraction; the location, quantity, grade geological characteristics and continuity of a mineral resource are known, estimated or interpreted from specific geological evidence and knowledge; mineral resources are sub-divided into Inferred, Indicated and Measured categories

    "mineralisation"

    process of formation and concentration of elements and their chemical compounds within a mass or carcass of rock

    "Mt"

    million tonnes

    "ppm"

    parts per million

    "recovery"

    proportion of valuable material obtained in the processing of an ore, stated as a percentage of the material recovered compared with the total material present

    "stope"

    underground excavation within the orebody where the main production takes place

    "t"

    a metric tonne

    "tin"

    A tetragonal mineral, rare; soft; malleable: bluish white, establish chiefly in cassiterite, SnO2

    "treatment"

    Physical or chemical treatment to extract the valuable metals/minerals

    "tungsten"

    hard, brittle, white or grey metallic element. Chemical symbol, W; too known as wolfram

    "W"

    chemical symbol for tungsten

     

    ADDITIONAL GEOLOGICAL TERMS

    "apical"

    relating to, or denoting an apex

     

    "cassiterite"

    A mineral, tin dioxide, SnO2. Ore of tin with specific gravity 7

    "cupola"

    A dome-shaped projection at the top of an igneous intrusion

    "dip"

    the accurate duck of a plane is the angle it makes with the horizontal plane

    "granite"

    coarse-grained intrusive igneous rock dominated by light-coloured minerals, consisting of about 50% orthoclase, 25% quartz and equilibrium of plagioclase feldspars and ferromagnesian silicates

    "greisen"

    A pneumatolitically altered granitic rock composed largely of quartz, mica, and topaz. The mica is usually muscovite or lepidolite. Tourmaline, fluorite, rutile, cassiterite, and wolframite are common accessory minerals

    "igneous"

    said of a rock or mineral that solidified from molten or partly molten material, i.e., from a magma

    "muscovite"

    also known as potash mica; formula: KAl2(AlSi3O10)(F,OH)2.

    "quartz"

    a mineral composed of silicon dioxide, SiO2

    "rhyolite"

    An igneous, volcanic rock of felsic (silica rich) composition.  Typically >69% SiO2

     

    "vein"

    a tabular deposit of minerals occupying a fracture, in which particles may grow away from the walls towards the middle

    "wolframite"

    A mineral, (Fe,Mn)WO4; within the huebnerite-ferberite series

    "zinnwaldite"

    A mineral, KLiFeAl(AlSi3)O10 (F,OH)2; mica group; basal cleavage; pale violet, yellowish or greyish brown; in granites, pegmatites, and greisens

           

     

     

    ENQUIRIES:

    European Metals Holdings Limited

    Keith Coughlan, Chief Executive Officer

     

     

    Kiran Morzaria, Non-Executive Director

     

    Julia Beckett, Company Secretary

     

    Tel: +61 (0) 419 996 333

    Email: keith@europeanmet.com

     

    Tel: +44 (0) 20 7440 0647

     

    Tel: +61 (0) 6141 3504

    Email: julia@europeanmet.com

     

    Beaumont Cornish (Nomad & Broker)

    Michael Cornish

    Roland Cornish

    Tel: +44 (0) 20 7628 3396

    Email: corpfin@b-cornish.co.uk

     

    The information contained within this announcement is considered to subsist inside information, for the purposes of Article 7 of EU Regulation 596/2014, prior to its release.

     

    Section 1 Sampling Techniques and Data

    Criteria

    JORC Code explanation

    Commentary

    Sampling techniques

    ·     Nature and attribute of sampling (eg nick channels, random chips, or specific specialised industry benchmark measurement tools preempt to the minerals under investigation, such as down pocket gamma sondes, or handheld XRF instruments, etc). These examples should not subsist taken as limiting the broad import of sampling.

    ·     comprehend reference to measures taken to ensure sample representivity and the preempt calibration of any measurement tools or systems used.

    ·     Aspects of the determination of mineralisation that are Material to the Public Report.

    ·     In cases where 'industry standard' work has been done this would subsist relatively simple (eg 'reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g impregnate for fire assay'). In other cases more explanation may subsist required, such as where there is gross gold that has inherent sampling problems. Unusual commodities or mineralisation types (eg submarine nodules) may warrant disclosure of circumstantial information.

    ·     In 2014, the Company commenced a core drilling program and collected samples from core splits in line with JORC Code guidelines. 

    ·     Sample intervals honour geological or visible mineralization boundaries and vary between 50cm and 2 m. Majority of samples is 1 m in length

    ·     The samples are half or quarter of core; the latter applied for large diameter core.

    ·     Between 1952 and 1989, the Cinovec deposit was sampled in two ways: in drill core and underground channel samples.

    ·     Channel samples, from drift ribs and faces, were collected during circumstantial exploration between 1952 and 1989 by Geoindustria n.p. and Rudne Doly n.p., both Czechoslovak condition companies. Sample length was 1 m, channel 10x5cm, sample mass about 15kg. Up to 1966, samples were collected using hammer and chisel; from 1966 a small drill (Holman Hammer) was used. 14179 samples were collected and transported to a crushing facility.

    ·     Core and channel samples were crushed in two steps: to -5mm, then to -0.5mm. 100g splits were obtained and pulverized to -0.045mm for analysis.

    Drilling techniques

    ·     Drill sort (eg core, invert circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc) and details (eg core diameter, triple or benchmark tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc).

    ·     In 2014, three core holes were drilled for a total of 940.1m. In 2015, six core holes were drilled for a total of 2,455.0m. In 2016, eight core holes were drilled for a total of 2,795.6m.

    ·     In 2014 and 2015, the core size was HQ3 (60mm diameter) in upper parts of holes; in deeper sections the core size was reduced to NQ3 (44mm diameter). Core recovery was elevated (average 98%). In 2016 up to four drill rigs were used, and select holes employed PQ sized core for upper parts of the drillholes.

    ·     Historically only core drilling was employed, either from surface or from underground. 

    ·     Surface drilling: 80 holes, total 30,340 meters; perpendicular and inclined, maximum depth 1596m (structural hole). Core diameters from 220mm near surface to 110 mm at depth. average core recovery 89.3%.

    ·     Underground drilling: 766 holes for 53,126m; horizontal and inclined. Core diameter 46mm; drilled by Craelius XC42 or DIAMEC drills.

    Drill sample recovery

    ·     fashion of recording and assessing core and chip sample recoveries and results assessed.

    ·     Measures taken to maximise sample recovery and ensure representative nature of the samples.

    ·     Whether a relationship exists between sample recovery and grade and whether sample prejudice may hold occurred due to preferential loss/gain of fine/coarse material.

    ·     Core recovery for historical surface drill holes was recorded on drill logs and entered into the database.

    ·     No correlation between grade and core recovery was established.

    Logging

    ·     Whether core and chip samples hold been geologically and geotechnically logged to a flush of detail to support preempt Mineral Resource estimation, mining studies and metallurgical studies.

    ·     Whether logging is qualitative or quantitative in nature. Core (or costean, channel, etc) photography.

    ·     The total length and percentage of the apposite intersections logged.

    ·     In 2014-2016, core descriptions were recorded into paper logging forms by hand and later entered into an excel database.

    ·     Core was logged in detail historically in a facility 6 km from the mine site.  The following features were logged and recorded in paper logs: lithology, alteration (including intensity divided into weak, medium and strong/pervasive), and incident of ore minerals expressed in %, macroscopic description of congruous intervals and structures and core recovery.

    Sub-sampling techniques and sample preparation

    ·     If core, whether nick or sawn and whether quarter, half or everyone core taken.

    ·     If non-core, whether riffled, tube sampled, rotary split, etc and whether sampled dank or dry.

    ·     For everyone sample types, the nature, attribute and appropriateness of the sample preparation technique.

    ·     attribute control procedures adopted for everyone sub-sampling stages to maximise representivity of samples.

    ·     Measures taken to ensure that the sampling is representative of the in situ material collected, including for instance results for domain duplicate/second-half sampling.

    ·     Whether sample sizes are preempt to the grain size of the material being sampled.

    ·     In 2014-16, core was washed, geologically logged, sample intervals determined and marked then the core was nick in half. In 2016 larger core was nick in half and one half was nick again to obtain a quarter core sample.  One half or one quarter samples was delivered to ALS Global for assaying after duplicates, blanks and standards were inserted in the sample stream. The remaining drill core is stored on site for reference.

    ·     Sample preparation was carried out by ALS Global in Romania, using industry benchmark techniques preempt for the style of mineralisation represented at Cinovec.

    ·     Historically, core was either split or consumed entirely for analyses.

    ·     Samples are considered to subsist representative.

    ·     Sample size and grains size are deemed preempt for the analytical techniques used.

     

    Quality of assay data and laboratory tests

    ·     The nature, attribute and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total.

    ·     For geophysical tools, spectrometers, handheld XRF instruments, etc, the parameters used in determining the analysis including instrument beget and model, reading times, calibrations factors applied and their derivation, etc.

    ·     Nature of attribute control procedures adopted (eg standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (ie need of bias) and precision hold been established.

    ·     In 2014-16, core samples were assayed by ALS Global. The most preempt analytical methods were determined by results of tests for various analytical techniques.

    ·     The following analytical methods were chosen: ME-MS81 (lithium borate fusion or 4 acid digest, ICP-MS finish) for a suite of elements including Sn and W and ME-4ACD81 (4 acid digest, ICP-AES finish) additional elements including lithium.

    ·     About 40% of samples were analysed by ME-MS81d (ME-MS81 plus all rock package). Samples with over 1% tin are analysed by XRF. Samples over 1% lithium were analysed by Li-OG63 (four acid and ICP finish).

    ·    

    ·     Standards, blanks and duplicates were inserted into the sample stream.  Initial tin benchmark results indicated practicable downgrading bias; the laboratory repeated the analysis with satisfactory results. 

    ·     Historically, tin content was measured by XRF and using dank chemical methods. W and Li were analysed by spectral methods.

    ·     Analytical QA was internal and external.  The former subjected 5% of the sample to repeat analysis in the very facility.  10% of samples were analysed in another laboratory, too located in Czechoslovakia. The QA/QC procedures were set to the condition norms and are considered adequate. It is unknown whether external standards or sample duplicates were used.

    ·     Overall accuracy of sampling and assaying was proved later by test mining and reconciliation of mined and analysed grades.

    Verification of sampling and assaying

    ·     The verification of significant intersections by either independent or alternative company personnel.

    ·     The consume of twinned holes.

    ·     Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols.

    ·     argue any adjustment to assay data.

    ·     During the 2014-16 drill campaigns the Company indirectly verified grades of tin and lithium by comparing the length and grade of mineral intercepts with the current conceal model.

    Location of data points

    ·     Accuracy and attribute of surveys used to locate drill holes (collar and down-hole surveys), trenches, mine workings and other locations used in Mineral Resource estimation.

    ·     Specification of the grid system used.

    ·     attribute and adequacy of topographic control.

    ·     In 2014-16, drill collar locations were surveyed by a registered surveyor.

    ·     Down pocket surveys were recorded by a contractor.

    ·     Historically, drill pocket collars were surveyed with a remarkable degree of precision by the mine survey crew.

    ·     pocket locations are recorded in the local S-JTSK Krovak grid.

    ·     Topographic control is excellent.

    Data spacing and distribution

    ·     Data spacing for reporting of Exploration Results.

    ·     Whether the data spacing and distribution is adequate to establish the degree of geological and grade continuity preempt for the Mineral Resource and Ore Reserve estimation procedure(s) and classifications applied.

    ·     Whether sample compositing has been applied.

    ·     Historical data density is very high. 

    ·     Spacing is adequate to establish an inferred resource that was initially estimated using MICROMINE software in Perth, 2012.

    ·     Areas with lower coverage of Li% assays hold been identified as exploration targets.

    ·     Sample compositing to 1m intervals has been applied mathematically prior to estimation but not physically.

    Orientation of data in relation to geological structure

    ·     Whether the orientation of sampling achieves unbiased sampling of practicable structures and the extent to which this is known, considering the deposit type.

    ·     If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to hold introduced a sampling bias, this should subsist assessed and reported if material.

    ·     In 2014-16, drill pocket azimuth and duck was planned to intercept the mineralized zones at near-true thickness.  As the mineralized zones duck shallowly to the south, drill holes were perpendicular or near perpendicular and directed to the north. Due to land access restrictions, unavoidable holes could not subsist positioned in sites with model drill angle.

    ·     The Company has not directly collected any samples underground because the workings are inaccessible at this time. 

    ·     Based on historic reports, flush diagram maps, sections and core logs, the samples were collected in an unbiased fashion, systematically on two underground levels from drift ribs and faces, as well as from underground holes drilled perpendicular to the drift directions.  The sample density is adequate for the style of deposit.

    ·     Multiple samples were taken and analysed by the Company from the historic tailing repository. Only lithium was analysed (Sn and W too low).  The results matched the historic grades.

    Sample security

    ·     The measures taken to ensure sample security.

    ·     In the 2014-16 programs, only the Company's employees and contractors handled drill core and conducted sampling. The core was collected from the drill rig each day and transported in a company vehicle to the secure Company premises where it was logged and cut.  Company geologists supervised the process and logged/sampled the core.   The samples were transported by Company personnel in a Company vehicle to the ALS Global laboratory pick-up station. The remaining core is stored under lock and key.

    ·     Historically, sample security was ensured by condition norms applied to exploration.  The condition norms were similar to currently accepted best rehearse and JORC guidelines for sample security.

    Audits or reviews

    ·     The results of any audits or reviews of sampling techniques and data.

    ·     Review of sampling techniques practicable from written records. No flaws found.

    Section 2 Reporting of Exploration Results

    Criteria

    JORC Code explanation

    Commentary

    Mineral tenement and land tenure status

    ·     Type, reference name/number, location and ownership including agreements or material issues with third parties such as joint ventures, partnerships, overriding royalties, endemic title interests, historical sites, wilderness or national park and environmental settings.

    ·     The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area.

    ·      Cinovec exploration rights held under three licenses Cinovec (expires 30/07/2019), Cinovec 2 (expires 31/12/2020) and Cinovec 3 (expires 31/10/2021).100% owned, no endemic interests or environmental concerns. A condition royalty applies metals production and is set as a fee in Czech crowns per unit of metal produced.

    ·      There are no known impediments to obtaining an Exploitation Permit for the defined resource.

    Exploration done by other parties

    ·     Acknowledgment and appraisal of exploration by other parties.

    ·      There has been no acknowledgment or appraisal of exploration by other parties.

    Geology

    ·     Deposit type, geological setting and style of mineralisation.

    ·      Cinovec is a granite-hosted tin-tungsten-lithium deposit.

    ·      Late Variscan age, post-orogenic granite intrusionTin and tungsten occur in oxide minerals (cassiterite and wolframite). Lithium occurs in zinwaldite, a Li-rich muscovite

    ·      Mineralization in a small granite cupola.  Vein and greisen type. Alteration is greisenisation, silicification.

    Drill pocket Information

    ·     A summary of everyone information material to the understanding of the exploration results including a tabulation of the following information for everyone Material drill holes:

    o  easting and northing of the drill pocket collar

    o  elevation or RL (Reduced flush - elevation above sea flush in metres) of the drill pocket collar

    o  duck and azimuth of the hole

    o  down pocket length and interception depth

    o  pocket length.

    ·     If the exclusion of this information is justified on the basis that the information is not Material and this exclusion does not detract from the understanding of the report, the Competent Person should clearly elaborate why this is the case.

    ·      Reported previously.

    Data aggregation methods

    ·     In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum grade truncations (eg cutting of elevated grades) and cut-off grades are usually Material and should subsist stated.

    ·     Where aggregate intercepts incorporate short lengths of elevated grade results and longer lengths of low grade results, the procedure used for such aggregation should subsist stated and some typical examples of such aggregations should subsist shown in detail.

    ·     The assumptions used for any reporting of metal equivalent values should subsist clearly stated.

    ·      Reporting of exploration results has not and will not comprehend aggregate intercepts.

    ·      Metal equivalent not used in reporting.

    ·      No grade truncations applied.

    Relationship between mineralisation widths and intercept lengths

    ·     These relationships are particularly well-known in the reporting of Exploration Results.

    ·     If the geometry of the mineralisation with respect to the drill pocket angle is known, its nature should subsist reported.

    ·     If it is not known and only the down pocket lengths are reported, there should subsist a lucid statement to this result (eg 'down pocket length, accurate width not known').

    ·      Intercept widths are approximate accurate widths.

    ·      The mineralization is mostly of disseminated nature and relatively homogeneous; the orientation of samples is of limited impact. 

    ·      For higher grade veins keeping was taken to drill at angles ensuring closeness of intercept length and accurate widths

    ·      The conceal model accounts for variations between evident and accurate dip.

    Diagrams

    ·     preempt maps and sections (with scales) and tabulations of intercepts should subsist included for any significant discovery being reported These should include, but not subsist limited to a diagram view of drill pocket collar locations and preempt sectional views.

    ·      preempt maps and sections hold been generated by the Company, and independent consultants. Available in customary vector and raster outputs, and partially in consultant's reports.

    Balanced reporting

    ·     Where comprehensive reporting of everyone Exploration Results is not practicable, representative reporting of both low and elevated grades and/or widths should subsist practiced to avoid delusory reporting of Exploration Results.

    ·      Balanced reporting in historic reports guaranteed by norms and standards, verified in 1997, and 2012 by independent consultants.

    ·      The historic reporting was completed by several condition institutions and cross validated.

    Other substantive exploration data

    ·     Other exploration data, if meaningful and material, should subsist reported including (but not limited to): geological observations; geophysical survey results; geochemical survey results; bulk samples - size and fashion of treatment; metallurgical test results; bulk density, groundwater, geotechnical and rock characteristics; potential deleterious or contaminating substances.

    ·      Data available: bulk density for everyone representative rock and ore types; (historic data + 92 measurements in 2016 from current core holes); petrographic and mineralogical studies, hydrological information, hardness, moisture content, fragmentation etc.

    Further work

    ·     The nature and scale of planned further work (eg tests for lateral extensions or depth extensions or large-scale step-out drilling).

    ·     Diagrams clearly highlighting the areas of practicable extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive.

    ·      Grade verification sampling from underground or drilling from surface.  Historically-reported grades require modern validation in order to ameliorate the resource classification.

    ·      The number and location of sampling sites will subsist determined from a 3D wireframe model and geostatistical considerations reflecting grade continuity. 

    ·      The geologic model will subsist used to determine if any infill drilling is required.

    ·      The deposit is open down-dip on the southern extension, and locally poorly constrained at its western and eastern extensions, where limited additional drilling might subsist required. 

    ·      No large scale drilling campaigns are required.

    Section 3 Estimation and Reporting of Mineral Resources

    Criteria

    JORC Code explanation

    Commentary

    Database integrity

    ·     Measures taken to ensure that data has not been corrupted by, for example, transcription or keying errors, between its initial collection and its consume for Mineral Resource estimation purposes.

    ·     Data validation procedures used.

    ·      Assay and geologic data were compiled by the Company staff from primary historic records, such as copies of drill logs and large scale sample location maps.

    ·      Sample data were entered in to excel spreadsheets by Company staff in Prague.

    ·      The database entry process was supervised by a Professional Geologist who works for the Company.

    ·      The database was checked by independent competent persons (Lynn Widenbar of Widenbar & Associates, Phil Newell of Wardell Armstrong International).

    Site visits

    ·     remark on any site visits undertaken by the Competent Person and the outcome of those visits.

    ·     If no site visits hold been undertaken betoken why this is the case.

    ·      The site was visited by Mr Pavel Reichl who has identified the previous shaft sites, tails dams and observed the mineralisation underground through an adjacent mine working.

    ·      The site was visited in June 2016 by Mr Lynn Widenbar, the Competent Person for Mineral Resource Estimation. Diamond drill rigs were viewed, as was core; a visit was carried out to the adjacent underground mine in Germany which is a continuation of the Cinovec Deposit.

    Geological interpretation

    ·     self-confidence in (or conversely, the doubt of) the geological interpretation of the mineral deposit.

    ·     Nature of the data used and of any assumptions made.

    ·     The effect, if any, of alternative interpretations on Mineral Resource estimation.

    ·     The consume of geology in guiding and controlling Mineral Resource estimation.

    ·     The factors affecting continuity both of grade and geology.

    ·      The overall geology of the deposit is relatively simple and well understood due to excellent data control from surface and underground.

    ·      Nature of data: underground mapping, structural measurements, circumstantial core logging, 3D data synthesis on plans and maps.

    ·      Geological continuity is good.  The grade is highest and shows most variability in quartz veins.

    ·      Grade correlates with degree of silicification and greisenisation of the host granite.

    ·      The primary control is the granite-country rock contact.  everyone mineralization is in the uppermost 200m of the granite and is truncated by the contact.

    Dimensions

    ·     The extent and variability of the Mineral Resource expressed as length (along strike or otherwise), diagram width, and depth below surface to the upper and lower limits of the Mineral Resource.

    ·      The Cinovec South deposit strikes north-south, is elongated, and dips gently south parallel to the upper granite contact.  The surface projection of mineralization is about 1 km long and 900 m wide.

    ·      Mineralization extends from about 200m to 500m below surface.

    Estimation and modelling techniques

    ·     The nature and appropriateness of the estimation technique(s) applied and key assumptions, including treatment of extreme grade values, domaining, interpolation parameters and maximum distance of extrapolation from data points. If a computer assisted estimation fashion was chosen comprehend a description of computer software and parameters used.

    ·     The availability of check estimates, previous estimates and/or mine production records and whether the Mineral Resource assess takes preempt account of such data.

    ·     The assumptions made regarding recovery of by-products.

    ·     Estimation of deleterious elements or other non-grade variables of economic significance (eg sulphur for acid mine drainage characterisation).

    ·     In the case of conceal model interpolation, the conceal size in relation to the average sample spacing and the search employed.

    ·     Any assumptions behind modelling of selective mining units.

    ·     Any assumptions about correlation between variables.

    ·     Description of how the geological interpretation was used to control the resource estimates.

    ·     Discussion of basis for using or not using grade cutting or capping.

    ·     The process of validation, the checking process used, the comparison of model data to drill pocket data, and consume of reconciliation data if available.

    ·      conceal estimation was carried out in Micromine using Ordinary Kriging interpolation.

    ·      A geological domain model was constructed using Leapfrog software with solid wireframes representing greisen, granite, greisenised granite and the overlying barren rhyolite. This was used to both control interpolation and to allot density to the model (2.57 for granite, 2.70 for greisen and 2.60 for everyone other material).

    ·      Analysis of sample lengths indicated that compositing to 1m was necessary.

    ·      Search ellipse sizes and orientations for the estimation were based on drill pocket spacing, the known orientations of mineralisation and variography.

    ·      An "unfolding" search strategy was used which allowed the search ellipse orientation to vary with the locally changing duck and strike.

    ·      After statistical analysis, a top nick of 5% was applied to Sn% and W%; no top nick is applied to Li%.

    ·      Sn% and Li% were then estimated by Ordinary Kriging within the mineralisation solids.

    ·      The primary search ellipse was 150m along strike, 150m down duck and 7.5m across the mineralisation. A minimum of 4 composites and a maximum of 8 composites were required.

    ·      A second interpolation with search ellipse of 300m x 300m x 12.5m was carried out to inform blocks to subsist used as the basis for an exploration target.

    ·      conceal size was 5m (E-W) by 10m (N-S) by 5m

    ·      Validation of the final resource has been carried out in a number of ways including section comparison of data versus model, swathe plots and production reconciliation.

    Moisture

    ·     Whether the tonnages are estimated on a parch basis or with natural moisture, and the fashion of determination of the moisture content.

    ·      Tonnages are estimated on a parch basis using the average bulk density for each geological domain.

    Cut-off parameters

    ·     The basis of the adopted cut-off grade(s) or attribute parameters applied.

    ·      A sequence of alternative cutoffs was used to report tonnage and grade: Sn 0.1%, 0.2%, 0.3% and 0.4%. Lithium 0.1%, 0.2%, 0.3% and 0.4%.

    Mining factors or assumptions

    ·     Assumptions made regarding practicable mining methods, minimum mining dimensions and internal (or, if applicable, external) mining dilution. It is always necessary as fraction of the process of determining reasonable prospects for eventual economic extraction to deem potential mining methods, but the assumptions made regarding mining methods and parameters when estimating Mineral Resources may not always subsist rigorous. Where this is the case, this should subsist reported with an explanation of the basis of the mining assumptions made.

    ·      Mining is assumed to subsist by underground methods. A Scoping Study has determined the optimal mining method.

    ·      Limited internal squander will need to subsist mined at grades marginally below cutoffs.  Mine dilution and squander are expected at minimal levels and the vast majority of the Mineral Resource is expected to convert to an Ore Reserve.

    ·      Based on the geometry of the deposit, it is envisaged that a combination of drift and fill mining and longhole open stoping will subsist used.

     

    Metallurgical factors or assumptions

    ·     The basis for assumptions or predictions regarding metallurgical amenability. It is always necessary as fraction of the process of determining reasonable prospects for eventual economic extraction to deem potential metallurgical methods, but the assumptions regarding metallurgical treatment processes and parameters made when reporting Mineral Resources may not always subsist rigorous. Where this is the case, this should subsist reported with an explanation of the basis of the metallurgical assumptions made.

    ·      Recent testwork on 2014 drill core indicates a tin recovery of 80% can subsist expected.

    ·      Testwork on lithium is complete, with 70% recovery of lithium to lithium carbonate product via flotation concentrate and atmospheric leach.

    ·      Extensive testwork was conducted on Cinovec South ore in the past. Testing culminated with a pilot plant crucible in 1970, where three batches of Cinovec South ore were processed, each under slightly different conditions. The best result, with a tin recovery of 76.36%, was obtained from a batch of 97.13t grading 0.32% Sn. A more elaborate flowsheet was too investigated and with flotation produced final Sn and W recoveries of better than 96% and 84%, respectively. 

    ·      Historical laboratory testwork demonstrated that lithium can subsist extracted from the ore (lithium carbonate was produced from 1958-1966 at Cinovec).

    Environmental factors or assumptions

    ·     Assumptions made regarding practicable squander and process residue disposal options. It is always necessary as fraction of the process of determining reasonable prospects for eventual economic extraction to deem the potential environmental impacts of the mining and processing operation. While at this stage the determination of potential environmental impacts, particularly for a greenfields project, may not always subsist well advanced, the status of early consideration of these potential environmental impacts should subsist reported. Where these aspects hold not been considered this should subsist reported with an explanation of the environmental assumptions made.

    ·      Cinovec is in an area of historic mining activity spanning the past 600 years. Extensive condition exploration was conducted until 1990.

    ·      The property is located in a sparsely populated area, most of the land belongs to the State. Few problems are anticipated with regards to the acquisition of surface rights for any potential underground mining operation.

    ·      The envisaged mining fashion will view much of the squander and tailings used as underground fill.

    Bulk density

    ·     Whether assumed or determined. If assumed, the basis for the assumptions. If determined, the fashion used, whether dank or dry, the frequency of the measurements, the nature, size and representativeness of the samples.

    ·     The bulk density for bulk material must hold been measured by methods that adequately account for void spaces (vugs, porosity, etc), moisture and differences between rock and alteration zones within the deposit.

    ·     argue assumptions for bulk density estimates used in the evaluation process of the different materials.

    ·      Historical bulk density measurements were made in a laboratory.

    ·      The following densities were applied:

    o  2.57 for granite

    o  2.70 for greisen

    o  2.60 for everyone other material

    Classification

    ·     The basis for the classification of the Mineral Resources into varying self-confidence categories.

    ·     Whether preempt account has been taken of everyone apposite factors (ie relative self-confidence in tonnage/grade estimations, reliability of input data, self-confidence in continuity of geology and metal values, quality, quantity and distribution of the data).

    ·     Whether the result appropriately reflects the Competent Person's view of the deposit.

    ·      Following a review of a small amount of available QAQC data, and comparison of production data versus estimated tonnage/grade from the resource model, and given the immediate spacing of underground drilling and development, the majority of the Tin resource was originally classified in the Inferred category as defined by the 2012 edition of the JORC code.

    ·      The current 2014 and 2016 drilling has confirmed the Tin mineralisation model and a fraction of this area has been upgraded to the Indicated category.

    ·      The Li% mineralisation has been assigned to the Inferred category where the average distance to composites used in estimation is less than 100m. Material outside this orbit is unclassified but has been used as the basis for an Exploration Target.

    ·      The current 2014 and 2016 drilling has confirmed the Lithium mineralisation model and a fraction of this area has been upgraded to the Indicated category.

    ·      The Competent Person (Lynn Widenbar) endorses the final results and classification.

    Audits or reviews

    ·     The results of any audits or reviews of Mineral Resource estimates.

    ·      Wardell Armstrong International, in their review of Lynn Widenbar's initial resource assess stated "the Widenbar model appears to hold been prepared in a diligent manner and given the data available provides a reasonable assess of the drillhole assay data at the Cinovec deposit".

     

    Discussion of relative accuracy/ confidence

    ·     Where preempt a statement of the relative accuracy and self-confidence flush in the Mineral Resource assess using an approach or procedure deemed preempt by the Competent Person. For example, the application of statistical or geostatistical procedures to quantify the relative accuracy of the resource within stated self-confidence limits, or, if such an approach is not deemed appropriate, a qualitative discussion of the factors that could move the relative accuracy and self-confidence of the estimate.

    ·     The statement should specify whether it relates to global or local estimates, and, if local, condition the apposite tonnages, which should subsist apposite to technical and economic evaluation. Documentation should comprehend assumptions made and the procedures used.

    ·     These statements of relative accuracy and self-confidence of the assess should subsist compared with production data, where available.

    ·      In 2012, WAI carried out model validation exercises on the initial Widenbar model, which included visual comparison of drilling sample grades and the estimated conceal model grades, and Swath plots to assess spatial local grade variability.

    ·      A visual comparison of conceal model grades vs drillhole grades was carried out on a sectional basis for both Sn and Li mineralisation. Visually, grades in the conceal model correlated well with drillhole grade for both Sn and Li.

    ·      Swathe plots were generated from the model by averaging composites and blocks in everyone 3 dimensions using 10m panels. Swath plots were generated for the Sn and Li estimated grades in the conceal model, these should exhibit a immediate relationship to the composite data upon which the estimation is based. As the original drillhole composites were not available to WAI. 1m composite samples based on 0.1% cut-offs for both Sn and Li assays were

    ·      Overall Swathe plots illustrate a helpful correlation between the composites and the conceal grades. As is visible in the Swathe plots, there has been a large amount of smoothing of the conceal model grades when compared to the composite grades, this is typical of the estimation method.

     



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