チタン鉱物および顔料産業

Abstract

Read the definitive report on the global titanium minerals and pigments industry, its markets and its future

What this report gives you:

• Independent, in-depth research and analysis
• Essential market intelligence for successful business planning
• Detailed survey of production and processing in 52 countries
• Up-to-date profiles of the activities of over 70 producing and processing companies and potential projects, including Rio Tinto, Illuka Resources, Kronos and Exxaro Resources
• Forecasts for end-use consumption & world supply & demand

A valuable resource for:

• Chief executives
• Market researchers
• Information centres
• Strategic planners
• Financial analysts
• Product developers

Report Highlights

With the expansion of the Chinese market, the Asia-Pacific region became the second largest regional market for TiO2 in 2005, with consumption of TiO2 pigments increasing to 1.3Mt in 2005 and then to a forecast 1.4Mt in 2006. China' s TiO2 pigments capacity, which was 720ktpy at the end of 2005, is expected to reach 840ktpy in 2006 and 900ktpy by the end of 2007.

About 4Mt of TiO2 in feedstocks were traded internationally in 2005, while international trade in TiO2 pigments increased from about 1.9Mt in 2001 to 2.5Mt in 2005. Trade in TiO2 feedstocks consists largely of exports of ilmenite, slag, synthetic rutile and natural rutile from Australia, South Africa, Canada, Vietnam, India and Ukraine to the USA, Germany, Japan China, the UK and France.

Production of PVC, polyethylene and polypropylene in China is expanding rapidly. Mineral-filled polypropylene used in automotive, appliance and furniture industries is an important market for TiO2 and it is here where growth is most likely. The cost of TiO2, in comparison to other mineral additives such as calcium carbonate and talc, will continue to be the biggest drawback to future growth in the use of TiO2 in plastics.

Titanium dioxide is produced either via digestion of feedstocks in sulphuric acid, or chlorination in chlorine gas: the sulphate and chloride process. Both processes produce solid, liquid and gaseous waste. The control and treatment of waste products from TiO2 plants represents a major part of the economics of TiO2 pigment industry.

Five multinational US-based companies, DuPont, Lyondell, Huntsman, Tronox (the successor to Kerr McGee) and Kronos, account for around 70% of world TiO2 capacity, with the remaining capacity outside China in the hands of 20 to 30 regional companies.

Table of Contents

1. Summary

2. History, mineralogy, occurrence and resources

• 2.1 History
• 2.2 Mineralogy
• 2.3 Occurrence
  • 2.3.1 Shoreline beach and dune sand placer deposits
  • 2.3.2 Inland paleo-marine basin deposits
  • 2.3.3 Alluvial placer deposits
  • 2.3.4 Magmatic deposits
• 2.4 Resources

3. Mining, concentration and processing of titanium minerals

• 3.1 Mining and concentration
  • 3.1.1 Mining of sand deposits
    • 3.1.1.1 Concentration
  • 3.1.2 Mining of hard rock deposits
• 3.2 Upgrading of ilmenite to titanium mineral feedstocks
  • 3.2.1 Production of titanium slag
  • 3.2.2 Composition of titanium slag
  • 3.2.3 Production of synthetic rutile
    • 3.2.3.1 The Becher process
    • 3.2.3.2 The Benilite process
    • 3.2.3.3 The Murso process
    • 3.2.3.4 Austpac ERMS SR process
    • 3.2.3.5 TSR process
    • 3.2.3.6 RUTILE process
    • 3.2.3.7 Heubach Reptile 96 process
    • 3.2.3.8 NewGenSR process
  • 3.2.4 Composition of synthetic rutile
• 3.3 Natural rutile
• 3.4 Production of titanium dioxide
  • 3.4.1 Selection criteria for titanium mineral feedstocks
  • 3.4.2 The sulphate process
  • 3.4.3 The chloride process
  • 3.4.4 Surface finishing
  • 3.4.5 Ultrafine TiO2
  • 3.4.6 Pollution control
    • 3.4.6.1 Radioactivity

4. World production data for titanium minerals and TiO2

• 4.1 Mine production of titanium minerals
• 4.2 Mine production of ilmenite
• 4.3 Titanium feedstock production
  • 4.3.1 Direct use ilmenite
  • 4.3.2 Natural rutile
  • 4.3.3 Titanium slag
  • 4.3.4 Synthetic rutile
  • 4.3.5 Companies producing titanium feedstocks
  • 4.3.6 New projects for production of titanium feedstocks
• 4.4 TiO2 production
  • 4.4.1 Producing companies
  • 4.4.2 Planned new capacity

5. Notes on producing and consuming countries

• 5.1 Australia
  • 5.1.1 Resources
    • 5.1.1.1 Environmental restrictions on resources
  • 5.1.2 Production
  • 5.1.3 Producing companies
    • 5.1.3.1 Iluka Resources
    • 5.1.3.2 Bemax Resources NL
    • 5.1.3.3 Tiwest Joint Venture
    • 5.1.3.4 Doral Mineral Sands
  • 5.1.4 New mining and exploration projects
    • 5.1.4.1 Australian Zircon - Mindarie
    • 5.1.4.2 Astron Ltd - Donald and Jackson
    • 5.1.4.3 Olympia Resources - Keysbrook
    • 5.1.4.4 Gunson Resources - Coburn
    • 5.1.4.5 Monto Minerals - Goondicum Crater
    • 5.1.4.6 Matilda Minerals - Tiwi Islands
    • 5.1.4.7 Other projects
  • 5.1.5 TiO2 production
• 5.2 Bangladesh
• 5.3 Belgium
• 5.4 Brazil
  • 5.4.1 Resources
  • 5.4.2 Feedstock production
    • 5.4.2.1 Millennium Chemicals do Brasil
    • 5.4.2.2 Indústrias Nucleares do Brasil
    • 5.4.2.3 Other sources of TiO2
  • 5.4.3 TiO2 and pigment production
• 5.5 Burundi
• 5.6 Cameroon
• 5.7 Canada
  • 5.7.1 Feedstock production
    • 5.7.1.1 QIT-Fer et Titane Inc
    • 5.7.1.2 Titanium Corporation Inc - Syncrude
    • 5.7.1.3 Altairnano Bateman Titania Inc - Randsburg
    • 5.7.1.4 Tiomin Resources - Natashquan
    • 5.7.1.5 Other TiO2 occurrences
  • 5.7.2 TiO2 production
• 5.8 Chile
  • 5.8.1 White Mountain Titanium - Cerro Blanco
  • 5.8.2 Other deposits
• 5.9 China
  • 5.9.1 Resources
  • 5.9.2 Feedstock production
    • 5.9.2.1 Panzhihua New Steel & Vanadium (Pangang)
    • 5.9.2.2 Hainan Island
    • 5.9.2.3 Other
  • 5.9.3 TiO2 production
• 5.10 Czech Republic
• 5.11 Denmark
• 5.12 Egypt
• 5.13 Finland
  • 5.13.1 TiO2 production
• 5.14 France
• 5.15 Germany
  • 5.15.1 TiO2 production
    • 5.15.1.1 Kronos Titan GmbH
    • 5.15.1.2 Tronox Pigments Services GmbH
    • 5.15.1.3 Sachtleben Chemie GmbH
• 5.16 Guatemala
• 5.17 Guinea
• 5.18 India
  • 5.18.1 Resources
  • 5.18.2 Feedstock production
    • 5.18.2.1 Indian Rare Earths Ltd
    • 5.18.2.2 Kerala Minerals and Metals Limited
    • 5.18.2.3 Vetri Vel Minerals
    • 5.18.2.4 Dharangadhra Chemical Works (DCW) Limited
    • 5.18.2.5 Cochin Minerals and Rutile (CMRL)
    • 5.18.2.6 WGI Heavy Minerals Inc - Transworld Garnet
    • 5.18.2.7 Beach Minerals Company India/Mineral Deposits Ltd
    • 5.18.2.8 Tata Iron & Steel Co
    • 5.18.2.9 Stork Handelsges/VSMPO
  • 5.18.3 TiO2 production
  • 5.18.3.1 Other TiO2 projects
• 5.19 Indonesia
• 5.20 Italy
• 5.21 Japan
  • 5.21.1 TiO2 production
    • 5.21.1.1 Ishihara Sangyo Kaisha (ISK)
    • 5.21.1.2 Sakai Chemical Industry
    • 5.21.1.3 Tayca Corporation
    • 5.21.1.4 Fuji Titanium
    • 5.21.1.5 Titan Kogyo KK
• 5.22 Kazakhstan
• 5.23 Kenya
• 5.24 South Korea
• 5.25 Madagascar
  • 5.25.1 QIT Madagascar Minerals SA (QMM) - Fort Dauphin
  • 5.25.2 Exxaro Resources - Toliara Sands
• 5.26 Malawi
  • 5.26.1 Millennium Mining ltd
  • 5.26.2 Other occurrences
• 5.27 Malaysia
  • 5.27.1 TOR Minerals (M) Sdn Bhd
  • 5.27.2 TiO2 production
• 5.28 Mexico
• 5.29 Mozambique
  • 5.29.1 Kenmare Resources - Moma Project
  • 5.29.2 BHP Billiton - Corridor Sands
  • 5.29.3 Moebase - TiGen Project
  • 5.29.4 Rio Tinto Iron & Titanium
• 5.30 Namibia
• 5.31 Netherlands
• 5.32 New Zealand
• 5.33 Norway
  • 5.33.1 Resources
  • 5.33.2 Feedstock production
  • 5.33.2.1 Titania A/S
  • 5.33.3 Tinfos Titan and Iron KS
  • 5.33.4 TiO2 production
• 5.34 Poland
• 5.35 Russia
  • 5.35.1 Resources
  • 5.35.2 Feedstock production
    • 5.35.2.1 Lovozersky GOK
    • 5.35.2.2 Yaregsky JSC
  • 5.35.3 Titanium feedstock projects
    • 5.35.3.1 Aricom plc - Olekma
    • 5.35.3.2 Potential projects
  • 5.35.4 TiO2 production
• 5.36 Saudi Arabia
  • 5.36.1 Cristal - National Titanium Dioxide Company
• 5.37 Senegal
  • 5.37.1 Mineral Deposits Ltd - Grande Côte Zircon
  • 5.37.2 Carnegie Corp
• 5.38 Sierra Leone
  • 5.38.1 Sierra Rutile Limited
• 5.39 Singapore
• 5.40 Slovenia
• 5.41 South Africa
  • 5.41.1 Resources
  • 5.41.2 Feedstock production
    • 5.41.2.1 Richards Bay Minerals (RBM)
    • 5.41.2.2 Exxaro Resources Limited
    • 5.41.2.3 Potential producers
  • 5.41.3 TiO2 production
• 5.42 Spain
• 5.43 Sri Lanka
• 5.44 Taiwan
  • 5.44.1 E I DuPont de Nemours & Co, Inc
  • 5.44.2 ISK Taiwan Co
  • 5.44.3 Other
• 5.45 Tanzania
• 5.46 Thailand
• 5.47 The Gambia
• 5.48 UK
  • 5.48.1 TiO2 production
  • 5.48.2 Huntsman Tioxide
  • 5.48.3 Millennium Chemicals
• 5.49 Ukraine
  • 5.49.1 Resources
  • 5.49.2 Feedstock production
    • 5.49.2.1 Volnogorsk State Mining and Metallurgical Plant
    • 5.49.2.2 Irshansk Mining and Beneficiation Combine
    • 5.49.2.3 Zaporozhye Titanium & Magnesium Combine (ZTMK)
  • 5.49.3 TiO2 production
    • 5.49.3.1 GAK Titan
    • 5.49.3.2 Sumykhimprom Titan
• 5.50 USA
  • 5.50.1 Resources
  • 5.50.2 Feedstock production
    • 5.50.2.1 E I DuPont de Nemours & Co Inc
    • 5.50.2.2 Iluka Resources Inc
    • 5.50.2.3 P W Gillibrand
    • 5.50.2.4 Exploration and potential producers
  • 5.50.3 TiO2 production
    • 5.50.3.1 E I DuPont de Nemours & Co, Inc
    • 5.50.3.2 Millennium Chemicals
    • 5.50.3.3 Tronox Inc
    • 5.50.3.4 Kronos Inc/Huntsman Tioxide
    • 5.50.3.5 TOR Minerals International
• 5.51 Vietnam
  • 5.51.1 Production
    • 5.51.1.1 Ha Tinh Minerals Corp
    • 5.51.1.2 Bimal Minerals Co
    • 5.51.1.3 Avireco USA
• 5.52 Yemen Arab Republic (North Yemen)

6. Consumption

• 6.1 Feedstock consumption
  • 6.1.1 Feedstock consumption by use
    • 6.1.1.1 Titanium feedstock uses other than TiO2 and metal production
• 6.2 TiO2 consumption
  • 6.2.1 Regional consumption of TiO2
  • 6.2.2 Consumption by use
  • 6.2.3 Forecast consumption by use

7. Uses of TiO2

• 7.1 Paints and coatings
  • 7.1.1 Paint production and markets
    • 7.1.1.1 Production
    • 7.1.1.2 World markets for paint and coatings
  • 7.1.2 Developments in paint technology
    • 7.1.2.1 Water-based paints
    • 7.1.2.2 Powder coatings
    • 7.1.2.3 Radiation curing
    • 7.1.2.4 Other
    • 7.1.2.5 Impact of paint technology on TiO2 preparation
  • 7.1.3 Structure of the world paint industry
  • 7.1.4 Outlook for TiO2 pigments in paint
• 7.2 Plastics
  • 7.2.1 Structure of the plastics industry
  • 7.2.2 World markets for plastics
  • 7.2.3 Outlook for use of TiO2 in plastics
• 7.3 Paper and board
  • 7.3.1 The role of minerals in paper
  • 7.3.2 Trends in TiO2 and other pigment-filler use in paper
  • 7.3.3 Paper and board production
  • 7.3.4 Paper and board consumption
  • 7.3.5 Paper producing companies
  • 7.3.6 Outlook for use of TiO2 in paper and board
• 7.4 Printing inks
  • 7.4.1 Composition of ink
  • 7.4.2 TiO2 in printing inks
  • 7.4.3 Outlook for TiO2 use in printing inks
• 7.5 Rubber
• 7.6 Synthetic fibres/textiles
• 7.7 Other uses
  • 7.7.1 Pharmaceuticals and cosmetics
  • 7.7.2 Vitreous enamels
  • 7.7.3 Glass and glass ceramics
  • 7.7.4 Electroceramics
  • 7.7.5 Air purification
  • 7.7.6 Welding fluxes
  • 7.7.7 Hard metals
  • 7.7.8 Chemical intermediates

8. Analysis of international trade data for titanium minerals and pigments

• 8.1 TiO2 feedstocks
  • 8.1.1 Exports
  • 8.1.2 Imports
• 8.2 Uncoated TiO2
  • 8.2.1 Exports
  • 8.2.2 Imports
• 8.3 Pigments containing more than 80%TiO2
  • 8.3.1 Exports
  • 8.3.2 Imports
• 8.4 TiO2-based pigments containing less than 80%TiO2
  • 8.4.1 Exports
  • 8.4.2 Imports

9. Prices of titanium mineral feedstocks and pigments

• 9.1 Titanium mineral feedstocks
  • 9.1.1 Rutile
  • 9.1.2 Synthetic rutile
  • 9.1.3 Prices of ilmenite
  • 9.1.4 Titanium slag
  • 9.1.5 Outlook for titanium feedstock prices
• 9.2 Titanium dioxide
  • 9.2.1 Europe
  • 9.2.2 USA
  • 9.2.3 Asia-Pacific
• 9.3 Outlook for prices of titanium pigments

List of Tables

• Table 1: World: Reserves and reserve base of titanium dioxide
• Table 2: World: Measured indicated and inferred resources of ilmenite and rutile, 2005
• Table 3: World: Measured, indicated and inferred ilmenite resources by grade, 2002
• Table 4: Physical Characteristics Used for Mineral Separation
• Table 5: Factors determining the choice of ilmenite upgrading process
• Table 6: Comparative analyses of ilmenite by producer
• Table 7: Comparative analyses of titanium slag by producer
• Table 8: Comparative analyses of synthetic rutile by producer
• Table 9: Comparative analyses of natural rutile by producer
• Table 10: Criteria used in selection of titanium mineral feedstocks
• Table 11: World: Mine production of titanium minerals, 1996 to 2005
• Table 12: World: Mine production of ilmenite by country, 1996 to 2005
• Table 13: World: Production of TiO2 feedstocks, 1980 to 2005
• Table 14: World: Production of titanium mineral feedstocks by country, 1996 to 2005
• Table 15: World: Principal producing companies: Titanium feedstocks, 2004 and 2005
• Table 16: Approximate output of TiO2 units by region, feedstock and principal companies, 2005 57
• Table 17: World: New titanium feedstock projects, 2006
• Table 18: World: TiO2 production capacity by process and country, 2006
• Table 19: World: TiO2 production by region and process, 1999 to 2005
• Table 20: World: Production of TiO2 by major country, 2002 to 2004
• Table 21: World: Principal TiO2 producing companies, 2006
• Table 22: Major new TiO2 pigment projects planned in 2006
• Table 23: Australia: Supply and disposal of titanium feedstocks, 2001 to 2005
• Table 24: Australia: Exports of TiO2 feedstocks by country, 2002 to 2005
• Table 25: Australia: Reserves and reserve base of titanium minerals
• Table 26: Australia: Heavy mineral resources by company, 2004/2005
• Table 27: Australia: Production of titanium minerals by company and operation, 2003 to 2006
• Table 28: Australia: Typical ilmenite and rutile specifications by company
• Table 29: Iluka Resources: Australian reserves and resources of heavy minerals, December 2005
• Table 30: Consolidated Rutile: Heavy mineral reserves and resources, end 2004
• Table 31: Bemax Resources: Heavy minerals reserves and resources in the South West WA Province, October 2005
• Table 32: Bemax Resources: Heavy mineral resources in the Murray Basin Province, October 2005
• Table 33: Tiwest Joint Venture: Reserves and resources of heavy minerals, end 2005
• Table 34: Tiwest: Production of titanium feedstocks, 2000 to 2005
• Table 35: Belgium: Production, exports and imports of titanium minerals and pigments, 2001 to 2005
• Table 36: Brazil: Production, exports and imports of TiO2, 2001 to 2005
• Table 37: Brazil: Resources of TiO2 minerals, 2000
• Table 38: Canada: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 39: Canada: Inferred exports of slag & ilmenite, by country, 2002 to 2005
• Table 40: China: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 41: Principal titanium feedstock producers, 2005
• Table 42: China: Source of sulphate feedstocks to TiO2 plants, 2004
• Table 43: China: Producers of TiO2, 2005
• Table 44: Finland: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 45: France: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 46: Germany: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 47: Germany: TiO2 producing companies, 2005
• Table 48: India: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 49: India: Resources of titanium minerals
• Table 50: India: Production of TiO2 feedstocks by company, 2002 to 2005
• Table 51: India: Capacity of titanium mineral separation plants, 2005
• Table 52: Indian Rare Earths Ltd: Production of ilmenite and rutile, years to end-March 2000 to 2004
• Table 53: IRE: Typical analyses of ilmenite and rutile produced
• Table 54: VVM: Heavy mineral resources, 2003
• Table 55: India: TiO2 plants, 2006
• Table 56: Italy: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 57: Japan: Exports and imports of TiO2 products, 2001 to 2005
• Table 58: Japan: Supply and demand for TiO2, 1997 to 2005
• Table 59: Japan: TiO2 producing companies, 2006
• Table 60: Tiomin Kenya: Heavy mineral resources at Kwale
• Table 61: South Korea: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 62: Malaysia: Supply and disposal of TiO2 products, 2001 to 2005
• Table 63: Mexico: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 64: Mozambique: Moma Titanium Minerals Project: Reserves and resources, 2006
• Table 65: Netherlands: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 66: Norway: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 67: Norway: TiO2 resources by area and mineral
• Table 68: Poland: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 69: Russia: Production and imports of TiO2 products, 2001 to 2005
• Table 70: Russia: Deposits of titanium minerals
• Table 71: Senegal: Mineral Sand deposits on the southern coast
• Table 72: Senegal: Mineral Deposits Ltd: Dredge inferred resource (1.5%HM cut off) at Grande Côte, 2005
• Table 73: South Africa: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 74: South Africa: Heavy mineral resources by deposit
• Table 75: South Africa: Production of TiO2 minerals and feedstocks by company, 2004 and 2005
• Table 76: South Africa: Namakwa Sands: Reserves and resources, December 2004
• Table 77: South Africa: Exxaro Resources: Titanium mineral resources, 2005
• Table 78: Spain: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 79: Taiwan: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 80: UK: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 81: UK: TiO2 plants, 2006
• Table 82: Ukraine: Production, exports and imports of TiO2 products, 2001 to 2005
• Table 83: Ukraine: Principal deposits of TiO2
• Table 84: USA: Supply and disposal of TiO2 products, 2001 to 2005
• Table 85: USA: Imports of titanium feedstocks by type, 2001 to 2005
• Table 86: USA: Production of titanium minerals by company, 2002 to 2005
• Table 87: USA: Iluka Resources Inc: Reserves and resources of minerals sands, December 2005
• Table 88: USA: Iluka Resources Inc: Titanium mineral production by operation, 2003 to 2006
• Table 89: USA: TiO2 capacity and production by company, 2002 to 2004
• Table 90: Vietnam: Titanium mineral deposits evaluated, 2004
• Table 91: Selected countries: Apparent consumption of TiO2 feedstocks, 2001 to 2005
• Table 92: World: Titanium feedstock consumption by first use, 1997 to 2005
• Table 93: World: Consumption of TiO2 feedstocks by use, 2002 to 2004
• Table 94: USA: Consumption of TiO2 feedstocks by major use, 1998 to 2004
• Table 95: USA: Apparent consumption of TiO2, 1994 to 2003
• Table 96: Selected countries: Apparent consumption of TiO2 and TiO2 based pigments, 2002 to 2005
• Table 97: World: Approximate division of consumption of TiO2 by use and region in 2005
• Table 98: USA: Distribution of TiO2 pigment shipments by use, 1995 to 2004
• Table 99: Japan: Domestic shipments of domestically produced TiO2 by use, 1991 to 2005
• Table 100: World: Forecast consumption of TiO2 by principal sector and region, 2010
• Table 101: Comparison of TiO2 pigment specifications
• Table 102: Key properties of TiO2 pigments by type
• Table 103: Comparison of white pigment properties
• Table 104: World: Production of paint and coatings by region and market, 1992 to 2012
• Table 105: USA: Shipments of paints and 1989 to 2006
• Table 106: Japan: Deliveries of paint and coatings, 1997 to 2004
• Table 107: World: Demand for paint by region and type, 1992 to 2012
• Table 108: USA: Shipments of paint and coatings by market, 2004 and 2005
• Table 109: Europe: Sales of paint by sector, 2003
• Table 110: Properties of grades of TiO2 pigment
• Table 111: World' s largest paint and adhesive producing companies, 2006
• Table 112: Production capacity of plastic resin by selected companies, 2006
• Table 113: World: Demand for plastics by region, 2000 to 2009
• Table 114: World: Consumption of plastics by resin type and region, 2000 to 2005 and 2009
• Table 115: World: Consumption of polyethylene by use and region, 2004
• Table 116: World: Consumption of polypropylene by use and region, 2004
• Table 117: World: Consumption of PVC by use and region, 2004
• Table 118: Properties of mineral fillers and coating pigments used in paper
• Table 119: World: Production of paper and board by region, 1995 to 2004
• Table 120: Principal countries: Production of main mineral-containing papers by category, 2004
• Table 121: World: Apparent consumption of paper and board, 1997 to 2004
• Table 122: World: Demand for writing and printing paper by type and region, 2001 to 2005
• Table 123: Leading paper and board companies in Europe, 2005
• Table 124: Compositions of selected printing inks
• Table 125: Properties of Kemira printing ink pigments
• Table 126: Properties and use of titanium compounds and chemicals
• Table 127: Reporting countries: Summary of TiO2 trade data, 2001 to 2005
• Table 128: Reporting countries: Exports of TiO2 feedstocks, 2001 to 2005
• Table 129: Reporting countries: Exports of TiO2 feedstocks by countries of destination, 2005
• Table 130: Reporting countries: Imports of TiO2 feedstocks, 2001 to 2005
• Table 131: Reporting countries: Imports of TiO2 feedstocks by country of origin, 2005
• Table 132: Reporting countries: Exports of uncoated TiO2 by country, 2001 to 2005
• Table 133: Reporting countries: Exports of uncoated TiO2 by country of destination, 2005
• Table 134: Reporting countries: Imports of uncoated TiO2 by country, 2001 to 2005
• Table 135: Reporting countries: Imports of uncoated TiO2 by country of origin, 2005
• Table 136: Reporting countries: Exports of pigments containing >80% TiO2, 2001 to 2005
• Table 137: Reporting countries: Exports of pigments containing >80% TiO2 by country of destination, 2005
• Table 138: Reporting countries: Imports of pigments containing >80% TiO2, 2001 to 2005
• Table 139: Reporting countries: Imports of pigments containing >80% TiO2 by country of origin, 2005
• Table 140: Reporting countries: Exports of TiO2-based pigments containing less than 80% TiO2, 2001 to 2005
• Table 141: Reporting countries: Exports of TiO2-based pigments containing less than 80% TiO2 by country of destination, 2005
• Table 142: Reporting countries: Imports of TiO2-based pigments containing less than 80% TiO2, 2001 to 2005
• Table 143: Reporting countries: Imports of TiO2-based pigments containing less than 80% TiO2 by country of origin, 2005
• Table 144: World: Titanium feedstock benchmark prices, 1995 to 2005
• Table 145: Annual average prices of titanium feedstocks, 2000 to 2006
• Table 146: Quarterly prices of rutile concentrate Australian port, min. 95% TiO2, 1993 to 2006
• Table 147: Prices of rutile concentrates, 1993 to 2006
• Table 148: USA: Average value of imports of rutile, 1993 to 2004
• Table 149: USA: Average value of imports of synthetic rutile, 1993 to 2005
• Table 150: Australia: Prices of ilmenite, 1993 to 2006 (min 54% TiO2 bulk)
• Table 151: Quarterly ilmenite prices, fob, as reported by USGS, 1993 to 2006
• Table 152: Prices of titanium slag, 1988 to 2006
• Table 153: USA: Average value of imports of titanium slag, 1991 to 2004
• Table 154: USA and Europe: TiO2 pigment price indications, 1999 to 2006 (cif bulk)
• Table 155: Average annual prices of TiO2 pigments, 2000 to 2006
• Table 156: EU countries: Average values of TiO2 exports, 1997 to 2005
• Table 157: USA: List price for rutile and anatase TiO2 pigments, 1990 to 2005
• Table 158: USA: Average value of TiO2 exports and imports, 1997 to 2005
• Table 159: Selected Asian countries: Average value of exports and imports of TiO2 pigments, 2001 to 2005

List of Figures

• Figure 1: World: Supply and demand of titanium feedstocks and TiO2 pigments, 2001 to 2006
• Figure 2: World: TiO2 reserve base (USGS) by principal country, 2006
• Figure 3: World: Ilmenite resources (TZMI) by principal country
• Figure 4: World: Rutile resources (TZMI) by principal country
• Figure 5: Production process flow chart for heavy mineral sands
• Figure 6: TiO2 content of ilmenite produced by principal companies
• Figure 7: Becher process for production of synthetic rutile
• Figure 8: World: Mine production of titanium minerals by principal country, 1996 to 2005
• Figure 9: Division of production of titanium minerals by country, 2005
• Figure 10: World: Mine production of ilmenite, 1979 to 2005
• Figure 11: Production of ilmenite by principal country, 1996 to 2005
• Figure 12: World: Division of ilmenite production by principal country, 2005
• Figure 13: World: Approximate division of ilmenite concentrates by process route to TiO2, 2005
• Figure 14: World: Production of titanium feedstock by type, 1980 to 2005
• Figure 15: World: Division of production of titanium feedstock by type, 1980 to 2005
• Figure 16: Production of direct use ilmenite by principal country, 1996 to 2005
• Figure 17: Division of direct use ilmenite production by country, 2005
• Figure 18: Production of natural rutile by principal country, 1996 to 2005,
• Figure 19: Division of natural rutile production by principal country, 2005
• Figure 20: Production of titanium slag by reporting country, 1995 to 2005,
• Figure 21: Production of synthetic rutile by principal country, 1995 to 2005
• Figure 22: Percentage of attributable production of contained TiO2 by major producers, 2005
• Figure 23: Attributable production of TiO2 by major producers, 2005
• Figure 24: Division of TiO2 production capacity by region, 2005
• Figure 25: Regional division of TiO2 capacity by process, 2002
• Figure 26: Division of TiO2 production capacity by principal company, 2006
• Figure 27: Australia: Production and exports of titanium feedstocks, 1990 to 2005
• Figure 28: Australia: Production of ilmenite by state, 1973 to 2005
• Figure 29: Australia: Production of rutile by state, 1973 to 2005
• Figure 30: South Africa: Production of TiO2 feedstocks and exports, 1991 to 2005
• Figure 31: USA: Production and imports of TiO2 products, 1990 to 2005
• Figure 32: World: Consumption of TiO2, 1970 to 2005
• Figure 33: World: Annual percentage change in TiO2 consumption, 1971 to 2005
• Figure 34: World: Consumption of TiO2 by major region, 1998 to 2006
• Figure 35: World: Approximate division of TiO2 consumption by principal countries, 2005
• Figure 36: Selected countries: Apparent consumption of TiO2 and TiO2 pigments, 2005
• Figure 37: Approximate division of TiO2 consumption by use, 2005
• Figure 38: World: Percentage of regional TiO2 consumption accounted for by major applications, 2005
• Figure 39: USA: Distribution of TiO2 pigment shipments by use, 1990 to 2004
• Figure 40: Japan: Domestic shipments of TiO2 by use, 2001
• Figure 41: Percentage of total TiO2 consumption accounted for by paint and coatings in each region, 2005
• Figure 42: World: Distribution of paint production by region, 2007
• Figure 43: USA: Paint and allied products shipments 1989 to 2005
• Figure 44: World: Distribution of coatings market by region, 2007
• Figure 45: USA: Shipments of paint by market sector, 2001 to 2005
• Figure 46: Europe: Division of paint sales volume by country, 2003
• Figure 47: Europe: Division of powder coatings market by sector
• Figure 48: Percentage of total TiO2 consumption accounted for by plastics in each region, 2005
• Figure 49: World: Consumption of plastics by region, 2000 to 2005
• Figure 50: World: Division of plastic consumption by region 2005
• Figure 51: Percentage of TiO2 consumption accounted for by paper and board in each region, 2005
• Figure 52: Light scattering coefficients of pulps and pigment
• Figure 53: Distribution of TiO2 demand by grade of paper and board
• Figure 54: World: Division of paper and board production by region, 2004
• Figure 55: World: Index of paper and board output by region, 1992 to 2004
• Figure 56: World: Distribution of paper and board production by grade
• Figure 57: World: Consumption of writing and printing paper by type, 2001 to 2005
• Figure 58: World: Division of exports of TiO2 feedstock by principal countries, 2005
• Figure 59: World: exports of TiO2 feedstocks by principal countries, 2001 to 2005
• Figure 60: Imports of TiO2 feedstocks by principal countries, 2001 to 2005
• Figure 61: Division of imports of TiO2 feedstocks by principal countries, 2005
• Figure 62: Division of exports of uncoated TiO2 by principal countries, 2005
• Figure 63: Exports of uncoated TiO2 by principal countries, 2001 to 2005
• Figure 64: Division of imports of uncoated TiO2 by principal country, 2005
• Figure 65: Imports of uncoated TiO2 by principal country, 2001 to 2005
• Figure 66: Division of exports of pigments containing >80% TiO2 by principal country, 2005
• Figure 67: Exports of pigments containing >80% TiO2 by principal country, 2001 to 2005
• Figure 68: Division of imports of pigments containing >80% TiO2 by principal country, 2005
• Figure 69: Imports of pigments containing >80% TiO2 by principal country, 2001 to 2005
• Figure 70: Division of exports of TiO2-based pigments containing less than 80% TiO2, 2005
• Figure 71: Exports of TiO2-based pigments containing less than 80% TiO2, 2001 to 2005
• Figure 72: Division of imports TiO2-based pigments containing less than 80% TiO2, 2005
• Figure 73: Imports of TiO2-based pigments containing less than 80% TiO2, by principal countries, 2001 to 2005
• Figure 74: Value of Australian exports of ilmenite and rutile, 1960 to 2000
• Figure 75: Mean quarterly prices of rutile concentrate, 1993 to 2006
• Figure 76: Australian ilmenite prices, 1993 to 2006
• Figure 77: Prices of titania slag, 1988 to 2006
• Figure 78: USA: Value of imports of slag by country of origin, 1991 to 2004
• Figure 79: Annual average prices of TiO2 pigment shipments, 2000 to 2006
• Figure 80: Average values of Asian exports and imports of TiO2 pigments, 2001 to 2005