稀土（稀土類）：全球市場、應用程式、技術

稀土（稀土類）：全球市場、應用程式、技術 是由出版商BCC Research在2012年01月所出版的。 這份英文市場調查報告書包含300 Pages 價格從美金4850起跳。

簡介

稀土（稀土類）的全球市場、稀土類氧化物（REO）換算在2009年有11萬1,500萬公噸到、2010年增加到14萬1,300萬公噸、2011年底預測達15萬8,200萬公噸。此外、稀土的市場到2016年為止CAGR(複合每年成長率)10.3%的擴大、2016年REO的換算預計接近25萬8,000噸的消費。

本報告書內容包括:全球的稀土（稀土類）市場的現況及未來的調查分析、稀土的歷史、稀土資源的地理分布、價格趨勢的彙整、未來的生產及價格趨勢的預測、冶金/機械、玻璃/陶瓷、電子、化學、及能源等各領域的市場趨勢分析、業界構成及美國專利分析的彙整、主要企業的介紹之提供等、內容綱要摘記如下:

第1章 介紹

第2章 實施摘要

第3章 概要

• 介紹
• 稀土的歷史之重大節目和最近的事情
• 稀土的既存及新興應用

第4章 稀土的生產技術

• 介紹
• 稀土元素的加工處理
• 最新的技術發展、2009年到現在為止
• 稀土的全球生產

第5章 稀土資源的地理分布

• 介紹
• 北美
• 南美
• 歐洲
• 非洲
• 獨立國家共同體（CIS）
• 亞洲
• 大洋洲
• 全球的稀土埋藏量摘要
• 最重要計畫的進步狀況報告書
• 全球的生產預測

第6章 稀土的價格

• 基本稀土類氧化物（REO）價格推移
• 最近的價格
• 差異礦石的價格比較
• 未來的價格趨勢

第7章 全球市場

• 分析的概要
• 全球市場摘要
• 冶金/機械部門
• 玻璃/陶瓷部門
• 電子、光電、及光電
• 化學部門
• 能源部門
• 其他部門

第8章 全球的業界構造

• 稀土的開採業者及供應商
• 稀土產業的其他主要加入企業
• 應矚目的最近產業變化
• 稀土的各地區生產
• 稀土的各地區消費
• 企業介紹

第9章 美國專利分析

• 介紹
• 2009∼2011年所授與的專利摘要
• 整體的趨勢
• 國家及各地區趨勢
• 申請者分類趨勢
• 各種專利分類趨勢
• 各種應用趨勢
• 各種稀土種類趨勢

圖表

目錄

Abstract

REPORT HIGHLIGHTS

The global market for rare earths increased from 111.5 thousand metric tons of equivalent rare earth oxides (REO) in 2009 to 141.3 thousand metric tons in 2010, and is estimated to reach 158.2 thousand metric tons by the end of 2011. Consequently, the total market for rare earths is forecast to grow at a CAGR of 10.3% through 2016, leading to the consumption of nearly 258 billion tons of REO in 2016.

The mechanical/metallurgical sector is estimated to account for 32.1% of total REO consumption in 2011. This sector was 44.8 thousand metric tons in 2010 and is expected to reach 51 thousand metric tons by the end of 2011. BCC expects this market to grow to 77 billion tons by 2016 increasing at a CAGR of 8.6%.

The energy segment is the fastest growing segment of the global rare earths market. This segment has grown from 23 thousand metric tons in 2010 to 27.3 thousand metric tons in 2011. By 2016 the energy segment will reach 62 thousand metric tons increasing at a CAGR of 17.8%.

REPORT SCOPE

INTRODUCTION

STUDY GOALS AND OBJECTIVES

Rare earths are a group of 17 metallic elements that have similar chemical structures with unique properties. BCC has followed the rare earth market for more than 15 years, reporting on all the latest technical and market developments. During this period, consumption of these materials has expanded by a factor of three and many new products containing these elements have been introduced. With this study, BCC Research continues its commitment to monitoring the rare earth market. BCC will provide an updated review of the most important advances in rare earth technology and production, a detailed overview of the current market, and an objective analysis of prospects for future growth.

Specifically, the major objectives of this study are:

• Provide an updated review of rare earth technology, focusing on materials, sources, and applications
• Highlight new technological developments during the past 3 years as they relate to rare earths
• Review existing fields of application for rare earths and investigate emerging applications
• Supply an updated worldwide overview of resources and rare earth production
• Describe the market evolution since 2009 and estimate 2011 global markets by application and rare earth element, with growth forecasts through 2016 for each market segment
• Identify important technological and market trends within each market segment
• Provide an updated review of current producers of rare earth materials and other relevant industry players
• Determine trends in U.S. patents issued during the past 2 years.

REASONS FOR DOING THIS STUDY

The first rare earths were discovered in the late 1700s, although commercial applications for these materials remained limited until the 1960s. During the last 50 years, due to the ongoing development of new applications, utilization of rare earths has steadily increased. Technologically advanced devices used in automobile, defense, metallurgy, electronics and optoelectronics, chemical, energy, and other fields owe some of their outstanding properties to the presence of rare earths.

In 2009, global demand for rare earths reached nearly 112,000 metric tons, with no meaningful slow-down in demand expected.

Beginning in the mid-1980s, China surpassed the United States as the leading supplier of rare earths. With very large reserves of rare earths, China's overwhelming price advantage through economies of scale made most mining operations in other parts of the world unprofitable, strengthening China's position as the leading producer of these elements (China currently accounts for over 90% of global rare earths production).

In recent years, China has adopted various regulations to control the mining and export of rare earths and has increased enforcement efforts to better protect the environment and safeguard supplies for its growing domestic market. As a result, China has reduced export quotas for rare earths, causing worldwide shortages of these materials and, consequently, rapidly rising prices.

The principal reason for doing this study is to provide an updated and comprehensive assessment of the rare earth industry, particularly as it relates to the evaluation of resources, the status of mining projects worldwide, current and future pricing of rare earths, alternative sources, and growth in demand for products containing these materials.

There is also a need to evaluate the current status and future trends of the rare earth industry from a global standpoint. As use of these materials expands, information on regional production, sales, and types of suppliers becomes more valuable.

An equally important reason for undertaking this study is to provide technical insights regarding rare earth production by:

• Illustrating the latest technological developments.
• Supplying a review of current and emerging applications.
• Identifying supply and demand for the 17 elements.
• Identifying current technical issues.
• Providing a detailed patent analysis.

This information can assist companies in finding alternative sources for rare earths and identifying opportunities for process and productivity improvements, resulting in a positive impact on future market growth.

INTENDED AUDIENCE

This study will be of primary interest to all companies that:

• Manufacture, sell, and distribute rare earths and rare earth - based products
• Are involved in the exploration and mining of rare earth elements
• Develop technologies that utilize rare earths
• Produce special alloys
• Fabricate advanced ceramics
• Manufacture glass for optical applications
• Offer technical and/or marketing services to firms that produce high-performance materials.

Overall, this study applies to industry sectors such as metallurgical/mechanical, glass and ceramics, electronics, optical and optoelectronics, chemical, energy, life sciences, sensors and instrumentation, and consumer products.

The study is mainly directed toward executives, directors, operations managers, sales and marketing managers, and strategic planners working within the above industries. Universities and research facilities may also find this study to be a good source of technical information regarding rare earth materials, sources, technology, and applications, which can be used as a baseline for new or expanded R&D activities. Librarians of technical information and research centers can also use this report to provide critical data to product managers, market analysts, researchers, and other professionals who need detailed and updated insights into the rare earths industry.

SCOPE OF REPORT

This study provides an updated review of rare earth materials, sources, pricing, and production processes, and identifies current and emerging applications for these materials.

BCC Research determines the current market status of rare earths, defines trends, and presents growth forecasts over the next 5 years. Supply and sourcing issues, including the latest developments, are also discussed.

BCC Research analyzes the rare earth industry on a worldwide basis from the standpoint of both manufacturing and consumption, and provides profiles of leading industry players.

A detailed U.S. patent analysis provides further insight regarding market and technological developments.

More specifically, BCC's market analysis is divided into seven parts.

In the first part, a historical review of rare earths is provided, including an outline of recent events. In this section, current and emerging applications for these materials are also identified and divided by sector (e.g., metallurgical/mechanical, chemical, energy, and electronics).

In the second part, the latest process developments and improvements related to rare earth production are outlined, followed by a summary of global production by country.

The third part of the report provides a detailed analysis of the geographical distribution of rare earth sources, discussing the major rare earth mining activities in each country, including supplying an updated assessment of world reserves, a status report on the most important mining projects, and global production forecasts.

Past, present and future price trends are presented and discussed in the fourth section.

The fifth part of the report entails a global market analysis of rare earths. Global consumption of rare earths (in metric tons) are presented by industry/application and by element, with actual data referring to the years 2009 and 2010, and estimated data for 2011. Global rare earth revenues (data in millions of dollars) by industry are also provided.

This section also offers a presentation of market growth trends based on industry growth and technological trends. Projected consumption for rare earths is reported with forecast CAGRs (compound annual growth rates) for the period 2011 through 2016.

In the sixth part, covering global industry structure, the report provides a complete list of rare earth suppliers with a description of their products. The analysis includes a description of the geographical distribution of these firms and an evaluation of production versus consumption for rare earths, always from a geographical standpoint. Detailed company profiles of the top industry players are also provided.

The seventh and final section includes an extensive analysis of U.S. patents, with a summary of patents related to rare earth materials, processes, and applications, issued during the period 2009 through 2011. Patent analysis is performed by region, country, assignee, patent category, application, and material type.

METHODOLOGY AND INFORMATION SOURCES

Both primary and secondary research methodologies were used to obtain market data and analyze the overall market and market segments.

The technology section of this report is based on information derived from technical literature, related BCC reports, professional journals, the author's field experience, and online sources.

Global market analysis was performed by analyzing 127 suppliers of rare earths, accounting for at least 90% of the global market. Data for each company were obtained by thoroughly analyzing Security and Exchange Commission (SEC) filings, Internet websites, annual reports, industry directories, industry magazines and catalogs, government sources, and other public sources.

Additional data were obtained from the direct contribution of primary sources, including: company executives, managers, engineers and other technical personnel representing suppliers of rare earths and rare earth - based products; representatives of academia and trade associations; and industry market analysts.

Secondary sources of information include:

• U.S. Geological Survey (USGS)
• EDGAR - U.S. Securities and Exchange Commission Filings
• U.S. Patent and Trademark Office
• European Patent Office
• Company websites
• Company annual reports
• Thomas Register
• Moody's Directory
• S & P Industry Survey
• Dun & Bradstreet Business Directory
• American Ceramic Society Publications
• Foreign Chamber of Commerce Directories
• Foreign Stock Exchange Listings.

In addition to utilizing the above primary and secondary sources, market growth trends and forecasts were compiled by gaining additional insights from relevant financial and market information, relevant BCC reports, and the author's own in-depth and comprehensive analysis of the collected information.

ANALYST CREDENTIALS

Margareth Gagliardi, BCC's chief research analyst in advanced materials, has more than 25 years of experience in the field of advanced materials, specializing in ceramic formulations, materials processing, and new product development. She has held management positions in both manufacturing and R&D within U.S. and European firms that produce electronic, mechanical, chemical, and structural components. She holds a B.S. in Chemical Engineering and an M.S. in Ceramic Engineering.

Table of Contents

Chapter- 1: INTRODUCTION - Complimentary

• STUDY GOALS AND OBJECTIVES
• REASONS FOR DOING THIS STUDY
• INTENDED AUDIENCE
• SCOPE OF REPORT
• METHODOLOGY AND INFORMATION SOURCES
• RELATED BCC RESEARCH STUDIES
• ANALYST CREDENTIALS
• BCC ONLINE SERVICES
• DISCLAIMER

Chapter- 2: EXECUTIVE SUMMARY

• Table 0 : GLOBAL MARKET FOR RARE EARTHS, THROUGH 2016
• Figure 0 : GLOBAL MARKET FOR RARE EARTHS, 2009 - 2016

Chapter- 3: OVERVIEW

• INTRODUCTION
• MILESTONES IN THE HISTORY OF RARE EARTHS AND RECENT EVENTS
• CURRENT AND EMERGING APPLICATIONS FOR RARE EARTHS

Chapter- 4: RARE EARTH PRODUCTION TECHNOLOGY

• INTRODUCTION
• RARE ELEMENTS PROCESSING
• LATEST TECHNOLOGICAL DEVELOPMENTS, 2009 TO PRESENT
• RARE EARTH GLOBAL PRODUCTION

Chapter- 5: GEOGRAPHICAL DISTRIBUTION OF RARE EARTH RESOURCES72$1,746

• INTRODUCTION
• NORTH AMERICA
• SOUTH AMERICA
• EUROPE
• AFRICA
• COMMONWEALTH OF INDEPENDENT STATES
• ASIA
• OCEANIA
• SUMMARY OF WORLD RESERVES OF RARE EARTHS
• STATUS REPORT OF MOST IMPORTANT PROJECTS
• GLOBAL PRODUCTION FORECAST

Chapter- 6: RARE EARTH PRICES

• HISTORICAL PRICES OF BASIC RARE EARTH OXIDES
• RECENT PRICES
• VALUE COMPARISON OF DIFFERENT ORES
• FUTURE PRICE TRENDS

Chapter- 7: GLOBAL MARKET

• ANALYSIS OUTLINE
• GLOBAL MARKET SUMMARY
• METALLURGICAL/MECHANICAL SECTOR
• GLASS/CERAMICS SECTOR
• ELECTRONICS, OPTICS, AND OPTOELECTRONICS
• CHEMICAL SECTOR
• ENERGY SECTOR
• OTHER SECTORS
• Table 142 : RARE EARTH ELEMENTS FOR OTHER SECTORS, 2011

Chapter- 8: GLOBAL INDUSTRY STRUCTURE

• MINERS AND SUPPLIERS OF RARE EARTHS
• OTHER KEY PLAYERS IN THE RARE EARTH INDUSTRY
• NOTABLE RECENT INDUSTRY CHANGES
• RARE EARTHS PRODUCTION BY REGION
• RARE EARTHS CONSUMPTION BY REGION
• COMPANY PROFILES

Chapter- 9: U.S. PATENT ANALYSIS

• INTRODUCTION
• SUMMARY OF PATENTS AWARDED DURING THE PERIOD 2009 THROUGH 2011
• GENERAL TRENDS
• TRENDS BY COUNTRY AND REGION
• TRENDS BY ASSIGNEE
• TRENDS BY PATENT CATEGORY
• TRENDS BY APPLICATION
• TRENDS BY RARE EARTH TYPE
• Figure 32 : RARE EARTHS: SHARES OF U.S. PATENTS BY MATERIAL TYPE, 2009 - 2011
• Table L 32 :

List of Tables

• Summary Table : GLOBAL MARKET FOR RARE EARTHS, THROUGH 2016
• Table 1 : LANTHANOIDS
• Table 2 : TYPICAL PROPERTIES OF LANTHANOIDS
• Table 3 : SCANDIUM AND YTTRIUM
• Table 4 : RARE EARTHS - TECHNOLOGICAL AND COMMERCIAL MILESTONES
• Table 5 : RARE EARTHS DISCOVERY
• Table 6 : RARE EARTH APPLICATIONS IN THE METALLURGICAL AND MECHANICAL SECTOR, 2011
• Table 7 : RARE EARTH APPLICATIONS IN THE GLASS/CERAMIC SECTOR, 2011
• Table 8 : RARE EARTH APPLICATIONS IN ELECTRONICS, OPTICS, AND OPTOELECTRONICS, 2011
• Table 9 : RARE EARTH APPLICATIONS IN THE CHEMICAL SECTOR, 2011
• Table 10 : RARE EARTH APPLICATIONS IN THE ENERGY SECTOR, 2011
• Table 11 : RARE EARTH APPLICATIONS IN THE LIFE SCIENCES SECTOR, 2011
• Table 12 : RARE EARTH APPLICATIONS IN THE SENSORS AND INSTRUMENTATION SECTOR, 2011
• Table 13 : RARE EARTH APPLICATIONS IN THE CONSUMER SECTOR, 2011
• Table 14 : OTHER RARE EARTH APPLICATIONS, 2011
• Table 15 : PROCESSING STEPS IN THE RARE EARTH INDUSTRY
• Table 16 : RARE EARTHS CRUSTAL ABUNDANCE
• Table 17 : TYPICAL RARE EARTH CONTENT IN VARIOUS COMMON RARE EARTH MINERALS
• Table 18 : TYPICAL ION ADSORPTION CLAY, LATERITE ORE COMPOSITIONS
• Table 19 : TYPICAL RARE EARTH CONTENT IN OTHER RARE EARTH MINERALS
• Table 20 : OCCURRENCE OF MINERALS CONTAINING RARE EARTHS WORLDWIDE
• Table 21 : RARE EARTHS PRODUCTION BY COUNTRY, 2006 - 2011
• Table 22 : RARE EARTHS PRODUCTION AND EXPORT IN CHINA, 2007 - 2011
• Table 23 : MOUNTAIN PASS, CALIFORNIA - TYPICAL ORE COMPOSITION
• Table 24 : IRON HILL, COLORADO - CARBONATITE ORE COMPOSITION
• Table 25 : IRON HILL, COLORADO - PIROXENITE ORE COMPOSITION
• Table 26 : ELK CREEK, NEBRASKA - TYPICAL ORE COMPOSITION
• Table 27 : ROUND TOP MOUNTAIN, TEXAS - TYPICAL ORE COMPOSITION
• Table 28 : BEAR LODGE, WYOMING - TYPICAL ORE COMPOSITION
• Table 29 : BOKAN MOUNTAIN, ALASKA - DOTSON ORE COMPOSITION
• Table 30 : U.S. RARE EARTH RESOURCES, 2011
• Table 31 : THOR LAKE, CANADA - NECHALACHO ORE COMPOSITION
• Table 32 : ELDOR, CANADA - ASHRAM ZONE ORE COMPOSITION
• Table 33 : STRANGE LAKE, CANADA - B-ZONE ORE COMPOSITION
• Table 34 : OKA, CANADA - TYPICAL ORE COMPOSITION
• Table 35 : HOIDAS LAKE, CANADA - TYPICAL RARE EARTH ORE COMPOSITION
• Table 36 : ELLIOT LAKE, CANADA - ECO RIDGE RARE EARTH ORE COMPOSITION
• Table 37 : CANADA RARE EARTH RESOURCES, 2011
• Table 38 : ARAXA, BRAZIL - TYPICAL RARE EARTH ORE COMPOSITION
• Table 39 : CATALAO, BRAZIL - TYPICAL RARE EARTH ORE COMPOSITION
• Table 40 : TAPIRA, BRAZIL - TYPICAL RARE EARTH ORE COMPOSITION
• Table 41 : MORRO DO FERRO, BRAZIL - TYPICAL RARE EARTH ORE COMPOSITION
• Table 42 : MATO PRETO, BRAZIL - TYPICAL RARE EARTH ORE COMPOSITION
• Table 43 : BRAZIL RARE EARTH RESOURCES, 2011
• Table 44 : NORRA KARR, SWEDEN - TYPICAL RARE EARTH ORE COMPOSITION
• Table 45 : KATAJAKANGAS, FINLAND - TYPICAL RARE EARTH ORE COMPOSITION
• Table 46 : KVANEFJELD, GREENLAND - TYPICAL RARE EARTH ORE COMPOSITION
• Table 47 : MOTZFELDT, GREENLAND - TYPICAL RARE EARTH ORE COMPOSITION
• Table 48 : ZANDKOPSDRIFT, SOUTH AFRICA - TYPICAL RARE EARTH ORE COMPOSITIONS
• Table 49 : PILANESBERG, SOUTH AFRICA - TYPICAL RARE EARTH ORE COMPOSITIONS
• Table 50 : STEENKAMPSKRAAL, SOUTH AFRICA - TYPICAL RARE EARTH ORE COMPOSITIONS
• Table 51 : SOUTH AFRICA RARE EARTH RESOURCES, 2011
• Table 52 : LOVOZERO, RUSSIA - TYPICAL RARE EARTH ORE COMPOSITIONS
• Table 53 : KHIBINA, RUSSIA - TYPICAL RARE EARTH ORE COMPOSITION
• Table 54 : RUSSIA RARE EARTH RESOURCES, 2011
• Table 55 : KUTESSAI II, KYRGYZSTAN - TYPICAL RARE EARTH ORE COMPOSITION
• Table 56 : KYRGYZSTAN RARE EARTH RESOURCES, 2011
• Table 57 : INDIA - TYPICAL MONAZITE ORE COMPOSITION
• Table 58 : BAYAN OBO, INNER MONGOLIA, CHINA - TYPICAL BASTNASITE ORE COMPOSITION
• Table 59 : MAONIUPING, SICHUAN, CHINA - TYPICAL ORE COMPOSITION
• Table 60 : SOUTHERN CHINA - TYPICAL MONAZITE ORE COMPOSITION
• Table 61 : CHINA RARE EARTH RESOURCES, 2011
• Table 62 : VIETNAM RARE EARTH RESOURCES, 2011
• Table 63 : MT. WELD, AUSTRALIA - ORE COMPOSITION
• Table 64 : NOLANS BORE, AUSTRALIA - TYPICAL RARE EARTH ORE COMPOSITIONS
• Table 65 : TOONGI, AUSTRALIA - TYPICAL RARE EARTH ORE COMPOSITIONS
• Table 66 : BROCKMAN, AUSTRALIA - TYPICAL ORE COMPOSITION
• Table 67 : YANGIBANA, AUSTRALIA - TYPICAL RARE EARTH ORE COMPOSITION
• Table 68 : CUMMINS RANGE, AUSTRALIA - TYPICAL RARE EARTH ORE COMPOSITIONS
• Table 69 : AUSTRALIA RARE EARTH RESOURCES, 2011
• Table 70 : GLOBAL RARE EARTH RESERVES, 2011
• Table 71 : HREE-RICH DEPOSITS, 2011
• Table 72 : STATUS REPORT OF VARIOUS PROJECTS WORLDWIDE, 2011
• Table 73 : RARE EARTHS PRODUCTION BY COUNTRY, 2011 - 2016
• Table 74 : RARE EARTH PRODUCTION BY ELEMENT, 2016
• Table 75 : RARE EARTHS AVERAGE UNIT PRICES, 99% PURITY, FOB, THROUGH 2011
• Table 76 : VALUE OF ONE KILOGRAM OF REO FOR VARIOUS ORES BASED ON 2011 PRICES
• Table 77 : REO RESOURCE VALUES FOR VARIOUS ORES, 2011
• Table 78 : REO RESOURCE VALUES BY REGION, 2011
• Table 79 : FORECAST - RARE EARTHS AVERAGE UNIT PRICES, 99% PURITY, FOB, THROUGH 2016
• Table 80 : GLOBAL DEMAND FOR RARE EARTHS BY INDUSTRY, THROUGH 2016
• Table 81 : GLOBAL MARKET FOR RARE EARTHS BY INDUSTRY, THROUGH 2016
• Table 82 : GLOBAL RARE EARTH CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 83 : MAIN TYPES OF PERMANENT MAGNETS, 2011
• Table 84 : CURRENT APPLICATIONS OF PERMANENT MAGNETS, 2011
• Table 85 : CURRENT RARE EARTH MAGNET APPLICATIONS, 2011
• Table 86 : PERMANENT MAGNETS: GLOBAL PRODUCTION BY TYPE, THROUGH 2011
• Table 87 : RARE EARTHS FOR PERMANENT MAGNETS: GLOBAL CONSUMPTION BY MAGNET TYPE, THROUGH 2011
• Table 88 : RARE EARTHS FOR PERMANENT MAGNETS: GLOBAL REVENUES BY MAGNET TYPE, THROUGH 2011
• Table 89 : RARE EARTHS FOR PERMANENT MAGNETS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2011
• Table 90 : FORECAST - ELECTRIC AND HYBRID VEHICLES: GLOBAL REVENUES, THROUGH 2016
• Table 91 : FORECAST - PERMANENT MAGNETS: GLOBAL PRODUCTION BY TYPE, THROUGH 2016
• Table 92 : FORECAST - RARE EARTHS FOR PERMANENT MAGNETS: GLOBAL CONSUMPTION BY MAGNET TYPE, THROUGH 2016
• Table 93 : FORECAST - RARE EARTHS FOR PERMANENT MAGNETS: GLOBAL REVENUES BY MAGNET TYPE, 2011 THROUGH 2016
• Table 94 : FORECAST - RARE EARTHS FOR PERMANENT MAGNETS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 95 : RARE EARTH ELEMENTS FOR METALLURGY, 2011
• Table 96 : HIGH-PERFORMANCE ALLOYS: GLOBAL CONSUMPTION, THROUGH 2011
• Table 97 : RARE EARTHS FOR METALLURGY: GLOBAL CONSUMPTION, THROUGH 2011
• Table 98 : RARE EARTHS FOR METALLURGY: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2011
• Table 99 : RARE EARTHS FOR METALLURGY: GLOBAL REVENUES BY ELEMENT, THROUGH 2011
• Table 100 : FORECAST - HIGH-PERFORMANCE ALLOYS: GLOBAL CONSUMPTION, THROUGH 2016
• Table 101 : FORECAST - RARE EARTHS FOR METALLURGY: GLOBAL CONSUMPTION, THROUGH 2016
• Table 102 : FORECAST - RARE EARTHS FOR METALLURGY: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 103 : FORECAST - RARE EARTHS FOR METALLURGY: GLOBAL REVENUES BY ELEMENT, THROUGH 2016
• Table 104 : RARE EARTH ELEMENTS FOR GLASS AND CERAMICS, 2011
• Table 105 : RARE EARTHS FOR GLASS AND CERAMICS: GLOBAL CONSUMPTION, THROUGH 2011
• Table 106 : RARE EARTHS FOR GLASS AND CERAMICS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2011
• Table 107 : RARE EARTHS FOR GLASS AND CERAMICS: GLOBAL REVENUES BY ELEMENT, THROUGH 2011
• Table 108 : FORECAST - CMP SLURRIES: GLOBAL REVENUES BY MATERIAL TYPE, THROUGH 2016
• Table 109 : FORECAST - ADVANCED DISPLAYS: GLOBAL REVENUES BY TYPE, THROUGH 2016
• Table 110 : GLOBAL MARKET FOR ADVANCED CERAMICS, THROUGH 2016
• Table 111 : FORECAST - GLASS MARKETS FOR RARE EARTHS: GLOBAL REVENUES BY SECTOR, THROUGH 2016
• Table 112 : FORECAST - RARE EARTHS FOR GLASS AND CERAMICS: GLOBAL CONSUMPTION, THROUGH 2016
• Table 113 : FORECAST - RARE EARTHS FOR GLASS AND CERAMICS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 114 : FORECAST - RARE EARTHS FOR GLASS AND CERAMICS: GLOBAL REVENUES BY ELEMENT, THROUGH 2016
• Table 115 : RARE EARTH ELEMENTS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS, 2011
• Table 116 : RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: GLOBAL CONSUMPTION, THROUGH 2011
• Table 117 : RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2011
• Table 118 : RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: GLOBAL REVENUES BY ELEMENT, THROUGH 2011
• Table 119 : FORECAST - OPTICAL FIBERS: GLOBAL MARKET, THROUGH 2016
• Table 120 : SEMICONDUCTORS: REVENUES BY REGION, THROUGH 2016
• Table 121 : FORECAST - RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: GLOBAL CONSUMPTION, THROUGH 2016
• Table 122 : FORECAST - RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 123 : FORECAST - RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: GLOBAL REVENUES BY ELEMENT, THROUGH 2016
• Table 124 : RARE EARTH ELEMENTS FOR THE CHEMICAL INDUSTRY, 2011
• Table 125 : RARE EARTHS FOR THE CHEMICAL INDUSTRY: GLOBAL CONSUMPTION, THROUGH 2011
• Table 126 : RARE EARTHS FOR THE CHEMICAL INDUSTRY: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2011
• Table 127 : RARE EARTHS FOR THE CHEMICAL INDUSTRY: GLOBAL REVENUES BY ELEMENT, THROUGH 2011
• Table 128 : FORECAST - CATALYSTS AND PHOTOCATALYSTS: GLOBAL REVENUES, THROUGH 2016
• Table 129 : FORECAST - RARE EARTHS FOR THE CHEMICAL INDUSTRY: GLOBAL CONSUMPTION, THROUGH 2016
• Table 130 : FORECAST - RARE EARTHS FOR THE CHEMICAL INDUSTRY: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 131 : FORECAST - RARE EARTHS FOR THE CHEMICAL INDUSTRY: GLOBAL REVENUES BY ELEMENT, THROUGH 2016
• Table 132 : RARE EARTH ELEMENTS FOR THE ENERGY SECTOR, 2011
• Table 133 : RARE EARTHS FOR THE ENERGY SECTOR: GLOBAL CONSUMPTION, THROUGH 2011
• Table 134 : RARE EARTHS FOR THE ENERGY SECTOR: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2011
• Table 135 : RARE EARTHS FOR THE ENERGY SECTOR: GLOBAL REVENUES BY ELEMENT, THROUGH 2011
• Table 136 : FORECAST - SUPERCONDUCTORS: GLOBAL REVENUES BY TYPE, THROUGH 2016
• Table 137 : FORECAST - FUEL CELLS: GLOBAL REVENUES BY TYPE, THROUGH 2016
• Table 138 : FORECAST - PHOTOVOLTAIC MODULES: GLOBAL PRODUCTION BY TYPE, THROUGH 2016
• Table 139 : FORECAST - RARE EARTHS FOR THE ENERGY SECTOR: GLOBAL CONSUMPTION, THROUGH 2016
• Table 140 : FORECAST - RARE EARTHS FOR THE ENERGY SECTOR: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 141 : FORECAST - RARE EARTHS FOR THE ENERGY SECTOR: GLOBAL REVENUES BY ELEMENT, THROUGH 2016
• Table 142 : RARE EARTH ELEMENTS FOR OTHER SECTORS, 2011
• Table 143 : RARE EARTHS FOR OTHER SECTORS: GLOBAL CONSUMPTION, THROUGH 2011
• Table 144 : RARE EARTHS FOR THE OTHER SECTORS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2011
• Table 145 : RARE EARTHS FOR OTHER SECTORS: GLOBAL REVENUES BY ELEMENT, THROUGH 2011
• Table 146 : FORECAST - VARIOUS APPLICATIONS OF RARE EARTHS IN THE LIFE SCIENCES, SENSORS AND INSTRUMENTATION, AND CONSUMER SECTORS: GLOBAL REVENUES, THROUGH 2016
• Table 147 : FORECAST - RARE EARTHS FOR OTHER SECTORS: GLOBAL CONSUMPTION, THROUGH 2016
• Table 148 : FORECAST - RARE EARTHS FOR OTHER SECTORS: GLOBAL CONSUMPTION BY ELEMENT, THROUGH 2016
• Table 149 : FORECAST - RARE EARTHS FOR OTHER SECTORS: GLOBAL REVENUES BY ELEMENT, THROUGH 2016
• Table 150 : MINERS AND SUPPLIERS OF RARE EARTHS, 2011
• Table 151 : GEOGRAPHICAL DISTRIBUTION OF KEY PLAYERS, 2011
• Table 152 : OTHER RELEVANT INDUSTRY PLAYERS, 2011
• Table 153 : NOTABLE INDUSTRY CHANGES SINCE 2009
• Table 154 : RARE EARTHS PRODUCTION BY REGION, THROUGH 2016
• Table 155 : RARE EARTHS CONSUMPTION BY REGION, THROUGH 2016
• Table 156 : RARE EARTHS - U.S. PATENTS, 2011
• Table 157 : RARE EARTHS - U.S. PATENTS, 2010
• Table 158 : RARE EARTHS - U.S. PATENTS, 2009
• Table 159 : RARE EARTHS: U.S. PATENT TRENDS, 2009 - 2011
• Table 160 : ASSIGNEES OF U.S. PATENTS RELATED TO RARE EARTHS, 2009 - 2011

List of Figures

• Summary Figure : GLOBAL MARKET FOR RARE EARTHS, 2009 - 2016
• Figure 1 : RARE EARTHS IN THE PERIODIC TABLE
• Figure 2 : RARE EARTHS - WORLDWIDE PATENT APPLICATIONS AND PATENTS ISSUED, 1951 - 2010
• Figure 3 : RARE EARTH RESERVES BY COUNTRY, 2011
• Figure 4 : RARE EARTHS: GLOBAL PRODUCTION SHARE BY COUNTRY, 2016
• Figure 5 : PRICES FOR THE MAJOR RARE EARTH OXIDES, 1992 - 2003, 99% PURITY CIF U.S.
• Figure 6 : PRICES FOR THE MAJOR RARE EARTH OXIDES, 99% PURITY FOB CHINA, 2003 - 2009
• Figure 7 : VALUE OF RARE EARTH RESOURCES BY REGION, 2011
• Figure 8 : GLOBAL DEMAND FOR RARE EARTHS BY INDUSTRY, 2009 - 2016
• Figure 9 : RARE EARTHS CONSUMPTION SHARE BY INDUSTRY, 2011 AND 2016
• Figure 10 : RARE EARTHS: MARKET SHARE BY ELEMENT, 2011 AND 2016
• Figure 11 : PERMANENT MAGNETS: PRODUCTION SHARE BY TYPE, 2011
• Figure 12 : RARE EARTHS FOR PERMANENT MAGNETS: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 13 : FORECAST - PERMANENT MAGNETS: PRODUCTION SHARE BY TYPE, 2016
• Figure 14 : FORECAST - RARE EARTHS FOR PERMANENT MAGNETS: CONSUMPTION SHARE BY ELEMENT, 2016
• Figure 15 : RARE EARTHS FOR METALLURGY: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 16 : FORECAST - RARE EARTHS FOR METALLURGY: CONSUMPTION SHARE BY ELEMENT, 2016
• Figure 17 : RARE EARTHS FOR GLASS AND CERAMICS: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 18 : FORECAST - RARE EARTHS FOR GLASS AND CERAMICS: CONSUMPTION SHARE BY ELEMENT, 2016
• Figure 19 : RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 20 : FORECAST - RARE EARTHS FOR ELECTRONICS, OPTICS, AND OPTOELECTRONICS: CONSUMPTION SHARE BY ELEMENT, 2016
• Figure 21 : RARE EARTHS FOR THE CHEMICAL INDUSTRY: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 22 : RARE EARTHS FOR THE CHEMICAL INDUSTRY: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 23 : RARE EARTHS FOR THE ENERGY SECTOR: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 24 : FORECAST - RARE EARTHS FOR THE ENERGY SECTOR: CONSUMPTION SHARE BY ELEMENT, 2016
• Figure 25 : RARE EARTHS FOR OTHER SECTORS: CONSUMPTION SHARE BY ELEMENT, 2011
• Figure 26 : FORECAST - RARE EARTHS FOR OTHER SECTORS: CONSUMPTION SHARE BY ELEMENT, 2016
• Figure 27 : RARE EARTHS: U.S. PATENT TRENDS, 2009 - 2011
• Figure 28 : SHARES OF U.S. PATENTS RELATED TO RARE EARTHS BY REGION, 2009 - 2011
• Figure 29 : RARE EARTHS: PATENTS BY COUNTRY, 2009 - 2011
• Figure 30 : RARE EARTHS: SHARES OF U.S. PATENTS BY CATEGORY, 2009 - 2011
• Figure 31 : RARE EARTHS: SHARES OF U.S. PATENTS BY APPLICATION, 2009 - 2011
• Figure 32 : RARE EARTHS: SHARES OF U.S. PATENTS BY MATERIAL TYPE, 2009 - 2011

Press Release

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