1. Strategic metals, strategic locations Mark Saxon – President & CEO
TASMAN
TASMAN
METALS LIMITED
Strategic metals, strategic locations
Mark Saxon – President & CEO

2. Corporate Disclaimer
Some of the statements contained in the following material may be "forward-looking statements." All statements, other than statements of historical fact, that address activities, events or developments that Tasman Metals Ltd. (“Tasman”) believes, expects or anticipates will or may occur in the future are forward-looking statements. Forward-looking statements are often, but not always, identified by the use of words such as "seek," "anticipate," "believe," "plan," "estimate," "expect," and "intend" and statements that an event or result "may," "will," "can," "should," "could," or "might" occur or be achieved and other similar expressions. These forward-looking statements reflect the current expectations or beliefs of Tasman based on information currently available to Tasman.
Forward-looking statements are subject to a number of risks and uncertainties that may cause the actual results of Tasman to differ materially from those discussed in the forward-looking statements, and even if such actual results are realized or substantially realized, there can be no assurance that they will have the expected consequences to, or effects on Tasman. Factors that could cause actual results or events to differ materially from current expectations include, among other things, failure to successfully complete intended financings, capital and other costs varying significantly from estimates, production rates varying from estimates, changes in world metal markets, changes in equity markets, changes in laws or regulations, uncertainties relating to the availability and costs of financing needed in the future, equipment failure, unexpected geological conditions, imprecision in resource estimates, success of future development initiatives, competition, operating performance of facilities, environmental and safety risks, delays in obtaining or failure to obtain necessary permits and approvals from government authorities, and other development and operating risks. Any forward-looking statement speaks only as of the date on which it is made and, except as may be required by applicable securities laws, Tasman disclaims any intent or obligation to update any forward-looking statement, whether as a result of new information, future events or results or otherwise.
Cautionary Note to U.S. Investors Concerning Mineral Resources and Reserves: In this presentation, the definitions of “mineral resources” are those used by the Canadian securities administrators and conform to the definitions utilized by CIM in the “CIM Standards on Mineral Resources and Reserves – Definitions and Guidelines” adopted on August 20, 2000 and amended December 11, 2005.
The standards employed in estimating the mineral resources referenced in this presentation differ significantly from the requirements of the United States Securities and Exchange Commission (the “SEC”) and the resource information reported may not be comparable to similar information reported by United States companies. The term “resources” does not equate to “reserves” and normally may not be included in documents filed with the SEC. “Resources” are sometimes referred to as “mineralization” or “mineral deposits.” While the terms “mineral resource”, “measured mineral resource”, “indicated mineral resource” and “inferred mineral resource” are recognized and required by Canadian regulations, they are not defined terms under standards in the United States and normally are not permitted to be used in reports and registration statements filed with the SEC. The terms “mineral reserve,” “proven mineral reserve” and “probable mineral reserve” are Canadian mining terms as defined in accordance with NI and the CIM - CIM Definition Standards on Mineral Resources and Mineral Reserves, adopted by the CIM Council, as may be amended from time to time by the CIM. These definitions differ from the definitions in the SEC’s Industry Guide 7 (“SEC Industry Guide 7”) under the Securities Act of As such, information contained in this presentation concerning descriptions of mineralization and resources under Canadian standards may not be comparable to similar information made public by United States companies in SEC filings.
The estimation of measured, indicated and inferred mineral resources involves greater uncertainty as to their existence and economic feasibility than the estimation of proven and probable reserves. U.S. investors are cautioned (i) not to assume that measured or indicated resources will be converted into reserves and (ii) not to assume that estimates of inferred mineral resources exist, are economically minable, or will be upgraded into measured or indicated mineral resources. It cannot be assumed that the Company will identify any viable mineral resources on its properties or that any mineral reserves, if any, can be recovered profitably, if at all.

3. Tasman’s Corporate Vision
“To provide the foundation to a long lived and sustainable European rare earth element supply chain”
REE’s provide the ideal material properties for modern society …..…
Efficiency enhancement
Weight reduction
Access to E - mobility
Emission reduction
Miniaturisation
Durability
Performance
..….. a European supply chain will be sustainable, secure and have a low environmental impact, so REE’s can be engineered for generations to come.

4. REE’s – What Are They ?
Rare Earth Elements (REE’s) are 15 metals that occur naturally in the environment ;
They have unique chemical characteristics that place them in demand for green technology, energy efficiency and medical applications ;
97% of REE supply is currently from Chinese mines ;
REE’s are often classed as HEAVY or LIGHT based on chemical characteristics ;
HEAVY and LIGHT REE’s have markedly different prices due to availability, cost of production and demand ;
REE’s do not occur in nature in same ratio they are consumed. There is no one single market for all REE’s ;
RE - Oxide
REO Price ($/kg)
Light REO
Lanthanum
(La)
$ 8
Cerium
(Ce)
Praseodymium
(Pr)
$ 75
Neodymium
(Nd)
$ 70
Samarium
(Sm)
$ 20
Heavy REO
Europium
(Eu)
$ 1200
Gadolinium
(Gd)
$ 49
Terbium
(Tb)
$ 1100
Dysprosium
(Dy)
$ 600
Holmium
(Ho)
N.A.
Erbium
(Er)
Thulium
(Tm)
Ytterbium
(Yb)
Lutetium
(Lu)
Yttrium
(Y)
$ 28
Source: Metals Pages, May 2013

5. Determining What is Critical
In 2011, US Department of Energy researched supply risks for metals essential to clean energy;
The HEAVY REE’s Dy, Tb, Eu and Y, and the LIGHT REE Nd were determined to be at serious supply risk for next 15 years ;
Dy, Tb, Eu, Y and Nd are described as the Critical Rare Earths due to restricted supply and low substitution potential.
These metals may become unavailable to western industry, regardless of price ;
The critical nature of HEAVY REE supply has arisen due to strong consumption growth and a generation of under investment in mineral exploration ;
The “barrier to entry” for REE miners/suppliers is significant due to processing and market risks ;
Importance to clean energy
Supply risk
Importance to clean energy
Supply risk

6. REE’s – Consumption By Market
Source: IMCOA, November 2012: 2016 Forecast Consumption by Sector %
HIGH STRENGTH PERMANENT MAGNETS (37%)
Most significant by both volume and value
10 % annual growth forecast
Nd, Pr, Dy, Gd, Tb
LIGHT EMITTING PHOSPHORS (31%)
High value product in smaller volume
7 % annual growth forecast
Y, Ce, La, Eu, Tb
2012 Total REO Consumption Estimate – 115,000 tonnes
REO market Value US$11 – 15 billion
2016 Total REO Consumption Forecast - 162,000 tonnes
66% Chinese consumption Forecast
REO market Value US$15 – 25 billion

7. REE’s – Consumption By Metal
Market Share
Price ($/kg)
L REO La
25%
$ 8
Metallurgy, catalysts, glass, phosphors, ceramics, polishing Ce
39%
Polishing, metallurgy, catalysts, glass, phosphors, ceramics Pr 5%
$ 75
Magnets, phosphors, ceramics, metallurgy, polishing Nd
18%
$ 70
Magnets, ceramics, metallurgy, glass, catalysts, phosphors Sm
1.5%
$ 20
Magnets
HREO Tb
0.25%
$ 1100
Phosphors, magnets Dy
$ 600 Y 8%
$ 28
Phosphors, ceramics, metallurgy
Source: Shaw and Constantinides, November 2012
Heavy REO = 12%
Light REO = 88% La Ce Pr Nd Sm Eu Gd Tb Dy Y
Other
TOTAL
Magnets --
14.6
77.0
1.9
1.5
0.3
4.8
100%
Phosphors
8.5
11.0
4.9
1.8
4.6
69.2
Battery Alloys
50.0
33.4
3.3
10.0
Auto Catalysts
5.0
90.0
2.0
3.0
FC Catalysts
Metallurgy
26.0
52.0
5.5
16.5
Polishing Powders
31.5
65.0
3.5
Ceramics
17.0
12.0
53.0
Glass
24.0
66.0
1.0
4.0
Others
19.0
39.0
15.0
% of Global REE Market
24.5 39 18
0.25 1 8
Source: Lynas Corp, 2011; Roskill, 2012

8. REE Price History
“REE prices will stabilize, reflecting a “new REE paradigm”. This new paradigm shall be based on industrially acceptable pricing, and incorporate the environmental costs of the Chinese REE industry, whilst placing value on a secure REE supply chain.”
Source: Metals Pages, 2013
Long Term $2 - 8
Long Term $
Long Term $
Long Term $
Heavy REE pricing is stabilizing at 100 – 300% above 2010 prices. No Western world supply anticipated before 2016 ;
Light REE pricing is stabilizing at lower levels, due in part to stable supply from Lynas Corp (11,000 tpa) and Molycorp (19,050 tpa) ;
The price peak/scare of 2011 was short-lived, when consumers relied upon stockpiles. Some permanent Ce and La market was lost due to a greater investment in REE recycling in the glass polishing industries ;

9. Application of REE Permanent Magnets
Jack Lifton, REE Industry Commentator : “Norra Karr is the most important deposit
in the western world for permanent magnets”
Hard Drives
Automotive
Wind Turbines
Air Conditioning
Cellular Phones
Domestic
Medical
Power
Aeronautical
10 – 30 g REE magnets per unit
kg REE magnets per unit
Long term low cost supply has lead to the
intensive use of REE magnets

10. REE Permanent Magnet Market
REE Permanent Magnet Market Growth – Historical and Forecast
US$8.6 b
US$17.0 b
Source: US Magnet Materials Association, Roskill, Bernecki et al 2010, IMCOA
Tonnes REE Magnets
2012 REE permanent magnet production was some 70,000 tonnes, consuming approximately 22,500 tonnes of REO ;
96% of the market is NdFeB magnets, with 0 – 9% Dy content depending on application ;
3% of the market is SmCo magnets, for high temperature applications;
1% of the market is SmFeN magnets, for bonded applications ;
REE permanent magnet growth is forecast at % per year ;
Ferric magnet market remains 10 x larger by weight than REE magnet market, but less than half the value ;

11. Magnet Use Growing 10% Per Year
REE Permanent magnets “made their market”. Commercialization and price stability has lead to rapid uptake ;
Principal traditional markets include: hard drives and CD/DVD drives, automotive applications, electric bicycles, wind turbines, MRI machines ;
Chinese production and consumption remain critical due to strong involvement in raw material supply and magnet technology ;
Near tear market drivers dominated by existing consumer technologies market drivers are dominated by e- mobility and hybrid vehicle uptake, and further adoption of wind energy ;
Source: Roskill,, 2012
Wind Turbine Adoption
Stable pricing of rare earth elements is considered key to the greater penetration of permanent magnets. ;
Access to dysprosium is seen a critical to many emerging magnet applications. technologies. Dysprosium allows REE permanent magnets to operate at higher temperatures without de-magnetization ;
Hybrid vehicles and wind turbines are large consumers of Dy-bearing magnets with between 9% and 4% average Dy. Wind turbine installation has grown at 36% in the past decade, with 60% of turbines now permanent magnet bearing.
2012 consumption of Dy-oxide approximated 1,500 tonnes. Wind turbine forecasts alone require an additional 850 tonnes of Dy-oxide pa by 2020
Tasman’s Norra Karr project can supply 20% of the current Dy demand for more than 50 years ;
Magnet Bearing Units Installed - Units
Magnet Demand - Tonnes
Source: JLMag REE Co, November 2012

12. REE – A Complex Landscape
Confused discussion over Heavy vs Light vs Critical REE’s ;
Small market with significant stockpiling ;
Opaque pricing causing seemingly volatile pricing ;
Chinese “overhang”, what shall they do next…? ;
Not commodities, not interchangeable ;
Higher technology risk than the rest of mining industry ;
No Western “working model” of processing ;
Supply can appear 5 x in excess of demand ;
Fear of another REE “bubble” ;
Lack of discrimination of “real” projects. Comments surrounding “Rare Earths aren't Rare” couldn’t be more wrong ;
Market strength lies with the consumers therefore revenue not equally distributed along the supply chain ;
Market is highly asymmetric – small emerging Western companies vs Chinese State Enterprises ;
Little recognition beyond China/Japan/Korea that “Supply Chain Security” has both a value and a cost ;
Over estimates of the role recycling can play and its true energy cost ;
Major projects are owned by junior mining companies with no cash flow – creates a significant financing hurdle to proceed ;
“When the critical metals are considered, non-Chinese industry does not have secure access to the materials it needs, regardless of price”

13. Steps to REE Production
Stage
Comment 1
Discovery and Drill Out
Many REE-bearing prospects and occurrences are known world wide
Few proceed past surface prospecting and warrant the investment of drilling 2
Understand the Deposit Mineralogy
More than 200 minerals are known to host REE’s. Commercial extraction is impossible for most
REE’s in only one or two minerals is preferred, as the subsequent process flow sheet is simplified 3
Resource Calculation
Once the discovery is confirmed, extensive drilling is required for NI or JORC standard resource calculation. Independent professional review is essential 4
Preliminary Economic Assessment (+/- 30%)
Once resource calculation and bench scale metallurgical characterisation is complete, a PEA may be completed for the project
The PEA tests the project viability and justifies future investment decisions
The opacity of REE pricing ensures a large variation in financial models 5
Pilot Plant Metallurgy
Metallurgical testing must increase in scale, to refine flowsheet and produce “near final” product 6
Pre-Feasibility Study
Once the resource has been upgraded to Measured + Indicated and metallurgical testing scaled up, a PFS may be completed on the project
The PFS captures more robust capital and operating cost information, and provides a more robust view of project economics
Technical, engineering, legal, social and environmental impacts need to be considered 7
Strategic Partnership & Off-Take
Industrial and financial partners need to receive REE-product to determine value
Partnerships and off take agreements are key to the success of the project 8
Bankable Feasibility Study
A BFS is required to justify the final investment decision, and must be based on full technical, legal and commercial data to a high standard
BFA shall incorporate metallurgical optimisation data, and reserve-stage deposit information 9
Permit Application
A wealth of data is required. Environmental and social impact statements must show adverse impact is small and can be managed, and the project is of benefit to the jurisdiction 10
Financing
Debt and equity financing of the project must be sought, often in conjunction with industrial partners 11
Engineering, Procurement, Construction
As REE projects are sophisticated, skilled EPC consultants are essential to ensure the project is successful
Construction is envisaged to take 1 – 3 years 12
First Production
Production scales up over time as the project is commissioned

14. Tasman – A Unique Setting
Light REE Resource Project
Heavy REE Resource Project

15. In-situ REO grade shown as %
Significant REE Projects - Resources
Mt Weld
Mnt Pass
Bear Lodge
Zandsko-psdrift
Strange Lake
Nechala-lacho
Kipawa
Dubbo
Bokan
Lofdal
Norra Karr
Owner
ASX:LYC
NYSE:MCP
TSX.V:RES
TSX:FRO
TSX:QRM
TSX:AVL
TSX.V:MAT
ASX:ALK
TSX.V:UCU
TSX:NRE
TSX.V:TSM
Country
AUST
USA
S.A.
CANADA
NAMIBIA
SWEDEN
Market Capitalization
$1.3 B
$0.98 B
$79 M
$46 M
$31 M
$105 M
$20 M
$210 M
$38 M
$18 M
$52 M
Resource (T)
14.95
31.55
51.71
42.48
20.02
125.72
24.45
73.20
3.67
1.65
58.10
TREO %
9.73
6.57
2.75
2.23
1.44
1.43
0.42
0.89
0.75
0.59
HREO %
2.8 %
0.5 %
3.4 %
7.2 %
37.8 %
13.2 %
33.3 %
22.5 %
39.0 %
85.2 %
52.0 %
Contained TREO (M tonnes)
1454
2072
1423
948
288
1795
103
651 28 10
343
Contained HREO (M tonnes)
40.7
10.3
48.3
68.2
108.8
236.9
34.2
146.4
10.9
8.5
178.3
Basket Price April13
$37
$24
$40
$41
$65
$58
$62
$44
$61
$104
$68
Rare Earth Oxide
REO Price
In-situ REO grade shown as %
LREO
Lanthanum
$ 8
2.32
2.18
0.80
0.70
0.13
0.20
0.06
0.17
0.08
0.02
Cerium
4.63
3.22
1.31
1.22
0.27
0.46
0.33
0.22
0.04
0.14
Praseodymium
$ 75
0.05
0.28
0.15
0.03
0.00
Neodymium
$ 70
1.76
0.79
0.54
0.44
0.11
0.23
0.07
Samarium
$ 20
0.24
0.01
HREO
Europium
$ 1200
Gadolinium
$ 49
Terbium
$ 1100
Dysprosium
$ 600
Holmium
N.A.
Erbium
Thulium
Ytterbium
Lutetium
Yttrium
$ 28
0.09
0.19
0.34
0.21
“Norra Karr is one of the largest and highest grade heavy REE projects know in the world today. It will be a globally significant supplier of Dy, Y, Tb, Nd and Lu for generations”

16. Tonnes of planned REO production per annum
Significant REE Projects - Production
Mt Weld
Mnt Pass
Bear Lodge
Zandsko-psdrift
Strange Lake
Nechala-lacho
Kipawa
Dubbo
Bokan
Lofdal
Norra Karr
Owner
ASX:LYC
NYSE:MCP
TSX.V:RES
TSX:FRO
TSX:QRM
TSX:AVL
TSX.V:MAT
ASX:ALK
TSX.V:UCU
TSX:NRE
TSX.V:TSM
Country
AUST
USA
S.A.
CANADA
NAMIBIA
SWEDEN
Market Capitalization
$1.3 B
$0.98 B
$79 M
$46 M
$31 M
$105 M
$20 M
$210 M
$38 M
$18 M
$52 M
Est Capital Cost
$900 M
$450
$350
$1200 M
$300 M
$1000 M
n.a.
Est Operating Cost
$11
$11*
$10
$13
$17
Current Stage
OPERATE
DFS
PFS
PEA
Anticipated Production
2013
2017
2016
2015
Rare Earth Oxide
REO Price
Tonnes of planned REO production per annum
LREO
Lanthanum
$ 8
2,622
6,310
2,775
5,083
1,733
1,896
767
937
182
668
Cerium
5,234
9,320
4,544
8,833
3,600
4,371
1,643
1,818
554
1,503
Praseodymium
$ 75
565
810
520
901
400
544
219
220 69
191
Neodymium
$ 70
1,839
2,286
1,873
3,154
1,467
2,125
716
267
755
Samarium
$ 20
271
145
277
462
209
110 70
199
HREO
Europium
$ 1200 56 26
118 25 7
Gadolinium
$ 49
124 43
139
288
172
708
211
Terbium
$ 1100 11 3 34
133 23 12 42
Dysprosium
$ 600 22 10 35
154
100 80
283
Other
N.A.
294
162
341
612
933
310
329 78
652
Yttrium
$ 28 79 29
104
814
3,067
433
1,205
771
434
2,307
TREO Total Output
11,000
19,000
10,400
20,000
12,000
10,000
5,257
4,908
2,464
6.637
HREO Total Output
588
274
688
2,020
4,800
1,064
1,862
911
1,321
3,520
Tasman’s Norra Karr project has one of the lowest capital costs to production due to extensive existing infrastructure ;
Tasman’s high proportion of heavy REO means a modest TREO production rate allows major Dy, Y, Tb output ;
Norra Karr’s unusually low contribution of the low value metals La, Ce, Sm means a high basket price, and no significant exposure to the metals that are moving over supply in 2013/14;

17. Significant REE Projects – Weight vs Revenue
Production Contribution vs Revenue Contribution for Major Projects
Mt Weld Mnt Pass Bear Lodge Zandskopdr Strange Lk Nechalacho Kipawa Dubbo Bokan Norra Karr
At 50%, Tasman’s Norra Karr project has the highest proportion of the Critical REE’s (Dy, Tb, Eu, Nd) of all advanced REE projects ;
Tasman’s Norra Karr project has the highest revenue exposure to the higher value Critical REE’s of all advanced REE projects ;
Norra Karr has little revenue exposure to the REE’s forecast to fall into oversupply in 2013/14 (Ce, La);
Source: TMR, 2013
Critical REE’s (Dy, Tb, Eu, Y, Nd)
Mid-Value REE’s (Pr, Gd)
Low-Value REE’s (La, Ce, Sm)
Relative Production Weight for Each Project Shown as Left Bar. Relative Revenue Contribution for Each Project Shown as Right Bar

18. Sweden – A Mining Country
Very well developed mining industry. In the EU27, Sweden is #1 for Gold, Lead, Iron; #2 Zinc, Silver; #3 for Copper; Aitik mines 45 M tonnes pa ;
Highly efficient industry therefore low mining costs, plus very supportive of green-tech industry ;
Low corporate tax rates at25%, mining royalty only 0.25%, streamlined Mining Act ;
Consistent top 4 ranking in Fraser Institute “Investment Climate” Survey (2nd in 2012) ;
World renouned development and manufacture of mining and mineral processing equipment ;
Strong focus on optimal use of resources and resource sustainability ;
Skilled people widely distributed – no need for “ex-pat” workforce ;
Scandinavia is the “home of REE’s” as most were discovered there, including some on Tasman’s projects ;
Per Teodor
Cleve
Carl Gustaf
Mosander

19. Excellent Market Access
CHEMICAL PLANT
MAJOR PORT
MAJOR MINE
NORRA KARR
OLSERUM
Sweden is a net exporter of sulphuric acid, one of Tasman’s key process requirements. Sulphuric acid is transported regularly on the train line that passes Norra Karr
0.25 km
Intrusion
outline
100 km

20. Infrastructure Equals Low Cap-Ex
Major road close to Norra Karr project
Easy all year round drilling and site development
Forest roads transect the mineralized intrusion
“Volvo geology”, no helicopters, barges, planes

21. Norra Kärr 6800 TPA REO Scenario
MINING
BENEFICIATION
Open pit, 0.8 LOM strip ratio
1.5 million tpa mining = > 40 year mine life to 200m depth
Crush + Grind
Flotation
Magnetic Sep
TAILING MANAGEMENT FACILITY
50% of Mass
Feldspar/Nepheline product
90% beneficiation recovery
HYDROMETALLURGY
25% of Mass
Aegerine product
Solid / Liquid Filtration
Sulphuric Acid Digestion of REE Minerals
Room Temp + Pressure
15% of Mass
Neutralised product
Neutralise with
limestone
90% hydromet recovery
Purification
Precipitation :
15000 T Zr Carbonate
6800 T REE Carbonate
Effluent Treatment and Disposal
Reverse osmosis
Transport by existing rail or road to separation facility

22. PEA Financial Highlights
“Tasman’s Norra Karr project is very financially robust, due to the high value heavy REE output, ambient temperature/pressure processing and the excellent existing transport and skills networks that Sweden can offer”
$1,464 million before-tax value (NPV at 10% discount rate) determined by independent consultants;
49.6% before-tax Internal Rate of Return (IRR);
Before-tax payback period of 2.6 years;
$5.3 Billion in revenue over the first 20 years and $10.9 billion over the 40 year life of mine;
Initial capital expenditures of $290 million (includes contingency of $66.8 million or 30%)
Average annual operating expenses of $74.3 million or $10.93 per kg of mixed TREO concentrate output;
Conservative basket price of US$51 per kg versus current China FOB basket price of US$78.24

23. % of Revenue Contribution Financial Model Price $/kg
Metal Production and Revenue
Magnet Metal
Lighting Metal
Annual Metal Output
% of Revenue Contribution
Financial Model Price $/kg
La Oxide
668 Tonnes
1.96 %
US$10
Ce Oxide
1503 Tonnes
2.21 %
US$5
Pr Oxide
191 Tonnes
4.21 %
US$75
Nd Oxide
755 Tonnes
16.64 %
Sm Oxide
199 Tonnes
0.53 %
US$9
Eu Oxide
25 Tonnes
3.63 %
US$500
Gd Oxide
211 Tonnes
1.86 %
US$30
Tb Oxide
42 Tonnes
12.05 %
US$975
Dy Oxide
283 Tonnes
43.36%
US$520
Ho Oxide
56 Tonnes
0 %
US$ 0
Er Oxide
180 Tonnes
Tm Oxide
Yb Oxide
167 Tonnes
Lu Oxide
Y Oxide
2,307 Tonnes
13.56 %
US$20
Zr Oxide
14,230 Tonnes
14.1 %
$3.71

24. Norra Kärr : Very Low Radioactivity
“Tasman’s Norra Karr project is unusually low in radioactivity, well below even the level of agricultural fertilizer sold in Sweden. The rock is clean enough to be considered for domestic building materials. By-product markets are being considered.”
IAEA “Usually Unnecessary to Regulate” = < 1 Bq/g
Swedish Fertilizer = Bq/g
Alum Shale = >1.6 Bq/g
Norra Karr = Bq/g
Becquerel per Gram

25. Norra Kärr : Project Timing
2010
2011
2012
2013
2014
2015
2016
Discovery
Resource
INFERRED
INDICATED
MEASURED
Metallurgy PP PP
PP = Pilot Plant
Scoping
Pre-Feasibility
Feasibility
Engineering
Construction
Production
Permitting
ML APP
Mine Lease and Extraction Permit Application/Granting
EXTRACT APP
Partner Development

26. Secure European Supply Chain
CRUSHING,
GRINDING,
BENEFICIATION
PURIFICATION AND PRECIPITATION
ACID
DISSOLUTION
SEPARATION TO RE-OXIDES
MINING
transport
Recycling opportunities
FINAL PRODUCT ASSEMBLY
10% pa growth
END OF LIFE RECYCLING
MAGNET PRODUCTION
MAGNET ALLOY
METAL MAKING
Nd, Pr, Dy, Gd, Tb
(powder metallurgy)
(vaccum melting)
(molten salt electrolysis)
HIGH STRENGTH MAGNET PRODUCTION
LIGHT GLOBE ASSEMBLY
PHOSPHOR APPLIED AS COATINGS
7% pa growth
END OF LIFE RECYCLING
PHOSPHOR POWDER
Y, Ce, La, Eu, Tb
LIGHTING PHOSPHOR PRODUCTION
“….rare earth elements are the invisible metals of modern society. Their unique physical properties include strong magnetism, fluorescence, ignition at high temperature and high melting and boiling points.
It is these unique characteristics that has lead to today being embedded in modest amounts in most modern appliances. REE’s provide access to a 2 trillion dollar supply chain…”
METALLURGY
CERAMICS
CATALYSTS
POLISHING

27. Standing out from the Crowd
Canadian company focused on “high-tech” metals in particular Rare Earth Elements (REE) in Europe ;
Tasman owns 100% of the only NI REE resources within the European Union ;
Flagship project is Norra Karr. 4th largest heavy REE deposit in the world. One of the highest percentage of HREE to TREE at over 50%. Will supply 300 tonnes of dysprosium oxide and 2000 tonnes of yttrium oxide annually;
Secondary project is Olserum, with a simple mineralogy supporting a well established flow sheet ;
Projects have excellent on site infrastructure with power, roads and water on site as well as rail within 20km. Sweden is a mining country ;
Norra Karr has a 40 year mine life or more. Deposit remains open at depth. Recently published very positive PEA – NPV of $1.5 billion with conservative metal pricing ;
Norra Karr gives Europe the opportunity to be the leader in HREE from 2016 ;

28. Vice President, Corporate Development
TASMAN
TASMAN
METALS LIMITED
CORPORATE OFFICE
FOR MORE INFORMATION
Suite 1305
1090 West Georgia St
Vancouver, BC V6E 3V7
CANADA
Ph: +1 (604)
Fax: +1 (604)
Mark Saxon
President & CEO
Jim Powell
Vice President, Corporate Development