市場調査レポート

永久磁石 - 類型、用途、新展開、産業構造および世界市場

Permanent Magnets: Types, Applications, New Developments, Industry Structure and Global Markets

発行 Innovative Research and Products (iRAP) 商品コード 298560
出版日 ページ情報 英文 205 Pages
納期: 即日から翌営業日
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永久磁石 - 類型、用途、新展開、産業構造および世界市場 Permanent Magnets: Types, Applications, New Developments, Industry Structure and Global Markets
出版日: 2014年04月01日 ページ情報: 英文 205 Pages
概要

永久磁石産業は、電気機械装置をはじめ、さまざまな産業機器における磁気回路部品の普及から過去10年にわたって急成長し、今後10年間もさらに発展を維持するものと見られます。市場には多数の小規模メーカーと少数の中規模メーカーが存在し、中国勢が大半を占める一方、希土類(レアアース)磁石メーカーはごく少数が各地に散在するのみ。市場は世界全体で2013年の113億ドルから5.7%の複合年間成長率により、2018年には150億ドル規模に達する見通しです。

当レポートでは、この永久磁石産業に注目し、上記期間における市場規模の推移を世界的視点から予測するほか、その概要、種類、技術、用途、産業構造、市場に影響する世界経済や技術の動向、主要企業のプロフィールなどの情報をまとめ、概略以下の構成でお届けします。

第1章 イントロダクション

  • イントロダクション
  • 調査の目標と目的
  • 調査が提供する利点
  • 形式と対象範囲
  • 調査方法と情報源
  • レポートの推奨利用者層
  • 執筆者経歴

第2章 エグゼクティブサマリー

  • 永久磁石の世界市場
  • 永久磁石の世界市場 - セグメント別:2013および2018年

第3章 産業概要

  • 技術構造
  • 市場概要
    • 中国
    • 米国
    • 欧州
    • 日本
    • その他の国々

第4章 技術と用途

  • 永久磁性体
  • 特性サマリー

第5章 セラミックハードフェライト

  • 材料タイプ
  • 製造工程
  • 特性
    • 物理・機械特性
    • 電気・磁気特性
  • ハードフェライトの用途
  • フェライト磁石の価格設定
  • 産業構造
  • メーカー一覧
  • 企業別市場シェア
  • 世界市場規模

第6章 ネオジウム鉄ボロン磁石

  • 製造工程
  • 特性、成分構成、等級
  • 用途
    • 自動車産業
    • HDD、CD、DVD
    • 電動補助動力自転車
    • トランスデューサー、スピーカー
    • 磁気分離装置
    • 磁気記録・情報ストレージ
    • トルク合成駆動装置
    • センサー
    • ヒステリシスクラッチ
    • 発電機
    • エネルギー保存機構
    • 風力発電機
    • 従来型の直接駆動風力タービン
    • 空調コンプレッサーおよびファン
    • ハイブリッドおよび電気モーター
    • その他の用途
  • ネオジウム鉄ボロン磁石の価格パターン
  • 軽土(ライトアース)金属と重土(ヘビーアース)金属利用における問題点と課題(ネオジウム鉄ボロン磁石におけるジスプロシウム利用)
  • ネオジウム鉄ボロン磁石の問題点 - 概要
  • 産業構造
  • メーカー一覧
  • 世界市場規模
  • ネオジウム鉄ボロン磁石の市場規模 - 用途別

第7章 希土類コバルト磁石

  • 材料およびタイプ
  • 商業用希土類コバルト磁石
    • 希土類コバルト5
    • 希土類2遷移金属17族
  • 製造工程
  • 特性
    • 物理・機械特性
    • 磁気特性
  • 希土類コバルト磁石
  • 用途
  • サマリウムコバルト永久磁石の価格パターン
  • 産業構造
  • メーカー一覧
  • 世界市場

第8章 アルニコ永久磁石

  • 材料およびタイプ
  • 入手可能な形状とサイズ
  • 特性
    • 鋳造アルニコ
    • 焼結アルニコ
  • 製造工程
    • 鋳造アルニコ
    • 焼結アルニコ
  • 熱処理
  • 表面加工
  • 用途
  • アルニコ永久磁石の価格パターン
  • 産業構造
  • メーカー一覧
  • 世界市場規模

第9章 ボンドおよびフレキシブル永久磁石

  • 材料およびタイプ
  • ボンド材
  • ボンド磁石の成分構成と等級
  • 製造工程
    • 押し出しによるボンド磁石生産法
    • 射出成型によるボンド磁石生産法
    • 加圧によるボンド磁石生産法
    • カレンダリングによるフレキシブルシートの生産
  • 用途
  • ボンド磁石の価格パターン
  • 産業構造
  • 主要メーカー
  • 世界市場

第10章 その他の磁石

  • ESD磁石
  • 鉄-クロム-コバルト磁性合金
    • 製造法
    • 特性
    • 用途
  • 磁性合金
    • REMALLOY
    • CUNIFE
    • CUNICO
    • VICALLOY
  • 磁性鋼
    • 製造
    • 物理・機械特性
    • 磁気特性
    • 用途
  • 白金コバルト
    • 物理・機械特性
    • 磁気特性
    • 用途
  • その他の永久磁性体

第11章 開発中の新たな磁性体

第12章 産業構造

  • 世界のメーカー
  • 新規市場参入企業
  • 流通・製造企業
  • 競争と市場動向
  • 永久磁石の最終利用者

第13章 市場規模および構成比

  • 地域別市場規模

第14章 特許および特許分析

第15章 企業プロフィール

  • ADAM MAGNETIC PRODUCTS CO.
  • ALLSTAR MAGNETICS
  • APPLIED MAGNETS
  • NINGBO XIONGHAI MAGNETICS & MECHANISM INDUSTRIAL CO. LTD.
  • STANFORD MAGNETS
  • VIONA MAGNETICS

第16章 永久磁石の流通および製造企業

第17章 付録 IおよびII:用語、数量単位表記、記号解説

目次
Product Code: ET-121

Permanent magnets are a vital part of modern life. They are found in or used to produce almost every modern convenience today, from speakers in mobile phones to the electric motors in hybrid cars; air conditioners and washing machines. Permanent magnets are used increasingly in technological applications, including traveling wave tubes, Hall Effect sensors, high temperature-resistant permanent magnets, thin-film coating equipment and flywheel storage systems.

In all of these applications, it is important for the designed permanent magnet to be of high strength, resistive to corrosion, and resistive to demagnetization due to excessive heat. Manufacturers have gained experience in designing and producing permanent magnets to meet these needs for industries with permanent magnet and magnetic assembly applications.

There are a number of major families of permanent magnets available for designers, ranging from ferrite, known for its low cost and low energy, to rare earth materials, which are more expensive and offer higher performance. Designers need to analyze magnetizing field strength and magnetic output of magnetic materials prior to deciding on the appropriate magnet.

Permanent magnets today are 60 times as strong as they were about 90 years ago. Strong permanent magnets that can be used in industrial applications were developed in the 20th century, and Japanese and western European researchers and technologies have always played major roles in the development of permanent magnets.

With the heavy reliance on Neo magnets in manufacturing, rare earth (RE) materials neodymium and dysprosium are playing a very important role because of the scarcity of these materials and the dominance of a single country (China) in providing them. The permanent magnet industry will start to see the end of serious RE shortages as new supplies begin to hit the market during 2013 and beyond, with new designs and new materials.

STUDY GOALS AND OBJECTIVES

This iRAP report has been prepared to highlight the many new developments in the permanent magnet industry. Many of the market segments are mature, while others are growing at very fast rates. Developing economies such as China and India are also emerging as growth engines for many industries that use permanent magnets. The markets in these new economies are expected to experience maximum revenue growth during the next five years.

Secondly, there are new applications for permanent magnets such as voice coil motors, traveling wave tubes, wind turbine generators, hybrid and pure electric vehicle motors, water turbine generators, thin-film coating equipment and flywheel storage systems applications. These have created the need for a formal analysis of technological and business issues, trends in manufacturing, competitive landscapes and Chinese domination in global markets, as well as factors such as shortages of raw materials used in Neo magnets.

This report has been prepared to:

  • provide an overview of the various permanent magnets, their production technologies and applications;
  • identify the technological and business issues related to the commercial production of permanent magnets;
  • understand the inter-material competition among the various permanent magnets;
  • determine the current size and future growth of the global markets for permanent magnets till 2018;
  • identify and profile global producers, distributers, fabricators and suppliers of permanent magnets;
  • assess new global funding in research of RE-free permanent magnet materials; and
  • illustrate US patents in this field that were granted between 2009 and 2013.

REASONS FOR DOING THE STUDY

Piezoelectric devices, combined with the development of piezoelectric materials, have become a key enabling technology for a wide range of industrial and consumer products. The piezoelectric device market experienced robust growth in last two decades and sustained fairly healthy growth even during the global economic downturns. It will again witness strong growth in the next years, and certain application markets already enjoy double digital growth.

The industrial and manufacturing area is still the largest application market for piezoelectric devices, followed by the automotive industry. However, the strongest demand comes from medical instruments and information and telecommunication, which are gaining ever-increasing importance among piezoelectric device suppliers.

The piezoelectric actuator and motor market is an attractive and still-growing multi-million dollar market characterized by very high production volumes of actuators and motors that must be both extremely reliable and low in cost. Growth in the market continues to be driven by increasing demand in camera phones for autofocus mechanisms, data storage, semiconductors, micro-electronics production, precision mechanics, life science and medical technology, optics, photonics, nanometrology, robots, toys, HVAC control systems, and other applications such as piezo fuel injectors, ink cartridges in printers, micropumps, microgrippers. microsurgery tools and piezoelectric MEMS (piezo MEMS) actuators.

iRAP conducted this study in 2007 and later in 2009. However, with increased demand for these devices, and with improved and emerging technologies as well as applications, iRAP felt a need to conduct a detailed study and update technology developments and markets. The report identifies and evaluates piezoelectric-operated actuators and motors and technologies which show potential growth.

CONTRIBUTIONS OF THE STUDY

This technical/economic study covers technical and industry overviews, materials, current and emerging production methods, business and technology issues, current and emerging applications, industry structure and an extensive market analysis. Current size and future growth of the global markets are estimated for 2013 and 2018.

FORMAT AND SCOPE

This report reviews the technology of permanent magnet materials, types of permanent magnet materials and their applications, and current and anticipated demand for specific materials. For each material segment, the report provides an analysis of material and product types in that category, processing technologies, properties, applications, the global markets and foreign competition.

The qualitative and quantitative judgments embodied in this report are a valuable contribution to the current knowledge of permanent magnets, their manufacturing technologies, applications and markets. Moreover, this study has been conducted at a vital stage when new magnet materials such as neodymium-iron-boron are revolutionizing applications. Because of the miniaturization of electronic components and computers, more powerful and smaller magnets are needed for such applications. This current study identifies all such applications.

Company profiles of all global producers of permanent magnets are covered, along with major distributors, fabricators and a listing of leading consumers of permanent magnets.

REPORT SUMMARY

The permanent magnet industry has grown in the last decade and is likely to continue this growth into the next decade because of increased usage of magnetic circuit components in a variety of industrial equipment and devices. Electromechanical devices constitute the largest market for permanent magnet materials. This market is growing rapidly. Large motors use ceramic magnets, and, for certain military applications, samarium-cobalt (Sam-Co) is still the preferred magnet.

Applications related to permanent magnet direct current motors - brushless direct current (BLDC) and brush-type (PMDC) - and power generation will be the largest usage segment of neodymium-iron-boron (NdFeB) permanent magnets, followed by voice coil motors (VCMs) in disk drives, because of the need for reduced size and higher performance. The third major usage segment is hybrid and electric automotive drives. Several rare earth (RE) elements are essential ingredients in the highest performance magnets available in the world today; these magnets have enabled miniaturization and a significant increase in power density in hundreds of applications.

The market experienced a boom in 2011, due to increased demand for RE permanent magnets. But as demand increased, supply chain interruptions resulted in a scarcity of RE permanent magnets. This affected the market adversely, and it plunged in 2012. As the supply of REs became stable, the market became stable, and it is expected to further stabilize in the future.

The permanent magnet market has a large number of small manufacturers coupled with a few medium-sized manufacturers. The market is dominated by Chinese manufacturers. There is a scarcity of manufacturers for rare earth magnets, and they are geographically scattered.

Major findings of this report are:

  • The global market for permanent magnets has reached US$11.3 billion in 2013, and is expected to grow to US$ 15 billion by 2018 with a CAGR of 5.7%
  • Metallic magnets (combining neodymium-iron-boron, alnico, and samarium-cobalt magnets) dominate the market in 2013, followed by ceramic magnets (ferrites) magnets. A distant third is the bonded magnets.
  • In terms of regional demand, the market is large in the Asia-Pacific region, and it is growing at a fast pace due to rising demand from end-user industries, especially in countries such as China and Japan.
  • The market is growing slowly in Europe, but will continue to grow at a significant rate in the North America.
  • The market is still in its infancy in Africa and Latin America, but these regions are experiencing high growth because of increased infrastructure spending and a low base effect. This market will experience an escalation in the demand of permanent magnets in the years to come.
  • The five-year period of 2013 through 2018 will see more of the industry centered in China.
  • The U.S. is a net importer of permanent magnets, for as much as 60% of its consumption. However, the U.S. still dominates in high performance magnets used in military and other strategic applications.

Table of Contents

1. INTRODUCTION

  • STUDY GOALS AND OBJECTIVES
  • CONTRIBUTIONS OF THE STUDY
  • FORMAT AND SCOPE
  • METHODOLOGY AND INFORMATION SOURCES
  • WHO SHOULD SUBSCRIBE
  • AUTHOR'S CREDENTIALS

2. EXECUTIVE SUMMARY

  • SUMMARY TABLE-GLOBAL MARKET FOR PERMANENT MAGNETS
  • SUMMARY FIGURE-GLOBAL MARKET FOR PERMANENT MAGNET SEGMENTS IN 2013 AND 2018

3. INDUSTRY OVERVIEW

  • INDUSTRY STRUCTURE
  • MARKET OVERVIEW
  • CHINA MARKET
  • U.S. MARKET
  • EUROPE
  • JAPAN
  • OTHER COUNTRIES

4. TECHNOLOGY AND APPLICATIONS

  • PERMANENT MAGNETIC MATERIALS
  • TABLE 1-NOMINAL COMPOSITIONS, CURIE TEMPERATURES, AND MAGNETIC ORIENTATIONS OF SELECTED PERMANENT MAGNET MATERIALS
  • TABLE 1-(CONTINUED)
  • SUMMARY OF PROPERTIES
  • TABLE 2-SUMMARY OF RANGE OF PROPERTIES OF PERMANENT MAGNET MATERIALS
  • TABLE 3-NOMINAL MAGNETIC PROPERTIES OF SELECTED PERMANENT MAGNET MATERIALS
  • TABLE 4-NOMINAL MECHANICAL AND PHYSICAL PROPERTIES OF SELECTED PERMANENT MAGNET MATERIALS
  • TABLE 5-TERMS/DEFINITIONS RELATED TO PERMANENT MAGNETS

5. CERAMIC HARD FERRITES

  • MATERIAL TYPES
  • MANUFACTURING PROCESSES
  • PROPERTIES
  • PHYSICAL AND MECHANICAL PROPERTIES
  • ELECTRICAL AND MAGNETIC PROPERTIES
  • TABLE 6-MAGNETIC PROPERTIES OF CHINESE CERAMIC MAGNETS
  • TABLE 7-EQUIVALENT MAGNETIC PROPERTIES OF U.S. VS. CHINESE HARD FERRITE CERAMIC MAGNETS
  • APPLICATIONS OF HARD FERRITES
  • APPLICATIONS OF HARD FERRITES (CONTINUED)
  • APPLICATIONS OF HARD FERRITES (CONTINUED)
  • TABLE 8-APPLICATIONS OF HITACHI'S RADIALLY ORIENTED RING CERAMIC MAGNETS
  • PRICING OF FERRITE MAGNETS
  • TABLE 9-PRICING OF COMMERCIALLY AVAILABLE FERRITE PRODUCTS
  • INDUSTRY STRUCTURE
  • LIST OF MANUFACTURERS
  • MARKET SHARES OF COMPANIES
  • TABLE 10-MARKET SHARE OF TOP MANUFACTURERS OF FERRITE MAGNETS IN 2013
  • GLOBAL MARKET SIZE
  • TABLE 11-GLOBAL MARKET OF HARD FERRITE PERMANENT MAGNETS,2013-2018

6. NEODIMUIM-IRON-BORON MAGNETS

  • MANUFACTURING PROCESSES
  • FIGURE 1-NEODYMIUM-IRON-BORON MAGNET PRODUCTION CYCLE
  • PROPERTIES, COMPOSITIONS AND GRADES
  • TABLE 12-MMPA DESIGNATIONS FOR RARE EARTH IRON-BORON MAGNETS
  • TABLE 13-MAGNETIC CHARACTERISTICS OF TDK'S NEOREC NDFEB MAGNETS
  • APPLICATIONS
  • TABLE 14-GLOBAL MARKET SHARE BY WEIGHT FOR NEODYMIUMIRON-BORON MAGNETS BY APPLICATION 2013
  • AUTOMOTIVE INDUSTRY
  • HDDS, CDS, DVDS
  • ELECTRIC BICYCLES
  • TRANSDUCERS AND LOUDSPEAKERS
  • MAGNETIC SEPARATION
  • MRIS
  • TORQUE-COUPLED DRIVES
  • SENSORS
  • HYSTERESIS CLUTHES
  • GENERATORS
  • ENERGY STORAGE SYSTEMS
  • WIND POWER GENERATORS
  • FIGURE 2
  • CONVENTIONAL AND DIRECT DRIVE WIND TURBINES
  • AIR CONDITIONING COMPRESSORS AND FANS
  • HYBRID AND ELECTRIC DRIVES
  • OTHER USES
  • PRICE PATTERN OF NEODYMIUM-IRON-BORON MAGNETS
  • TABLE 15-PRICE PATTERN OF COMMERCIALLY AVAILABLE NEODYMIUM-IRON-BORON PERMANENT MAGNETS PRODUCTS
  • ISSUES AND CHALLENGES IN USE OF LIGHT EARTH METALS AND HEAVY EARTH METALS (USE OF DYSPROSIUM IN NEODYMIUM-IRONBORON PERMANENT MAGNETS)
  • NED-FE-B PERMANENT MAGNET ISSUES - AN OVERVIEW
  • INDUSTRY STRUCTURE
  • LIST OF MANUFACTURERS
  • TABLE 16-GLOBAL MANUFACTURERS OF NDFEB MAGNETS
  • GLOBAL MARKET SIZE
  • TABLE 17-GLOBAL MARKET FOR NEO PERMANENT MAGNETS, 2013 AND 2018
  • MARKET SIZE BY APPLICATION FOR NEODYMIUM-IRON-BORON PERMANENT MAGNETS
  • TABLE 18-GLOBAL MARKET FOR NEODYMIUM-IRON-BORON MAGNETS BY APPLICATION, 2013 AND 2018

7. RARE-EARTH COBALT MAGNETS

  • MATERIALS AND TYPES
  • TABLE 19-RARE EARTH MAGNET DESIGNATIONS
  • TABLE 20-NOMINAL COMPOSITION, CURIE TEMPERATURE AND MAGNETIC ORIENTATION OF COMMERCIAL RARE-EARTH COBALT MAGNETS
  • RARE-EARTH COBALT 5
  • RARE-EARTH 2 TRANSITION METAL 17 GROUP
  • MANUFACTURING PROCESSES
  • PROPERTIES
  • PHYSICAL AND MECHANICAL PROPERTIES
  • TABLE 21-NOMINAL PHYSICAL AND MECHANICAL PROPERTIES OF RE MAGNETS
  • MAGNETIC PROPERTIES
  • TABLE 22-NOMINAL MAGNETIC PROPERTIES OF RARE EARTH/COBALT MAGNETS
  • TABLE 23-MAGNETIC PROPERTIES OF SOME COMMERCIALLY AVAILABLE
  • RARE EARTH COBALT MAGNETS
  • APPLICATIONS
  • PRICE PATTERN OF SAMARIUM-COBALT PERMANENT MAGNETS
  • INDUSTRY STRUCTURE
  • LIST OF MANUFACTURERS
  • TABLE 24-GLOBAL MANUFACTURERS OF SAMARIUM-COBALT MAGNETS
  • GLOBAL MARKET
  • TABLE 25-GLOBAL MARKET OF SAMARIUM-COBALT PERMANENT MAGNETS

8. ALNICO PERMANENT MAGNETS

  • MATERIALS AND TYPES
  • TABLE 26-ALNICO MAGNET DESIGNATIONS
  • AVAILABLE SHAPES AND SIZES
  • PROPERTIES
  • CAST ALNICOS
  • TABLE 27-NOMINAL COMPOSITION, CURIE TEMPERATURE AND MAGNETIC ORIENTATION OF CAST ALNICOS
  • TABLE 28-MAGNETIC PROPERTIES OF CAST ALNICO MAGNETS
  • TABLE 29-NOMINAL PHYSICAL AND MECHANICAL PROPERTIES OF CAST ALNICO MAGNETS
  • SINTERED ALNICOS
  • TABLE 30-NOMINAL COMPOSITION, CURIE TEMPERATURE AND MAGNETIC ORIENTATION OF SINTERED ALNICOS
  • TABLE 31-MAGNETIC PROPERTIES OF SINTERED ALNICO MAGNETS
  • TABLE 32-NOMINAL PHYSICAL AND MECHANICAL PROPERTIES OF SINTERED ALNICO MAGNETS
  • MANUFACTURING PROCESSES
  • CAST ALNICOS
  • SINTERED ALNICOS
  • HEAT TREATMENT
  • FINISHING
  • APPLICATIONS
  • PRICE PATTERN OF ALNICO PERMANENT MAGNETS
  • TABLE 33-PRICE PATTERN OF COMMERCIALLY AVAILABLE ALNICO PRODUCTS
  • INDUSTRY STRUCTURE
  • LIST OF MANUFACTURERS
  • TABLE 34-LEADING GLOBAL MANUFACTURERS OF ALNICO MAGNETS
  • GLOBAL MARKET SIZE
  • TABLE 35-GLOBAL MARKETS OF ALNICO PERMANENT MAGNETS

9. BONDED AND FLEXIBLE PERMANENT MAGNETS

  • MATERIALS AND TYPES
  • BONDING MATERIALS
  • COMPOSITIONS AND GRADES OF BONDED MAGNETS
  • TABLE 36-POWDER SPECIFICATIONS OF BONDED FERRITE
  • MANUFACTURING PROCESSES
  • PRODUCING BONDED MAGNETS VIA EXTRUSION
  • FIGURE 3-BONDED MAGNET PRODUCTION VIA EXTRUSION PROCESS
  • PRODUCING BONDED MAGNETS VIA INJECTION MOLDING
  • FIGURE 4-BONDED MAGNET PRODUCTION VIA INJECTION MOLDING PROCESS
  • PRODUCING BONDED MAGNETS VIA COMPRESSION
  • FIGURE 5-BONDED MAGNET PRODUCTION VIA COMPRESSION MOLDING PROCESS
  • CALENDERING AND PRODUCING FLEXIBLE SHEET
  • FIGURE 6-BONDED MAGNET PRODUCTION VIA CALENDERING PROCESS
  • APPLICATIONS
  • TABLE 37-APPLICATIONS FOR TYTEK INDUSTRIES' MAGNETS
  • TABLE 38 APPLICATIONS FOR TDK'S COMPOSITE MAGNETS
  • PRICE PATTERN OF BONDED MAGNETS
  • TABLE 39-AVERAGE PRICES OF FERRITE, SMCO AND NDFEB BONDED MAGNETS
  • INDUSTRY STRUCTURE
  • MAJOR MANUFACTURERS
  • TABLE 40-LEADING MANUFACTURERS OF BONDED MAGNETS IN CHINA, EUROPE, JAPAN, THE U.S., AND THE REST OF THE WORLD
  • GLOBAL MARKET
  • TABLE 41-GLOBAL MARKET FOR PERMANENT BONDED MAGNETS
  • FIGURE 7-GLOBAL MARKET FOR PERMANENT BONDED MAGNETS

10. OTHER MAGNETS

  • ELONGATED SINGLE DOMAIN (ESD) MAGNETS
  • IRON-CHROMIUM-COBALT MAGNET ALLOYS
  • MANUFACTURING
  • PROPERTIES
  • TABLE 42-MAGNETIC PROPERTIES OF IRON-CHROMIUM-COBALT MAGNETS
  • TABLE 43-MAGNETIC PROPERTIES OF HITACHI IRON-CHROMIUMCOBALT MAGNETS
  • APPLICATIONS
  • MAGNET ALLOYS
  • REMALLOY
  • TABLE 44-PHYSICAL AND MECHANICAL PROPERTIES OF REMALLOY
  • CUNIFE
  • TABLE 45-PHYSICAL AND MECHANICAL PROPERTIES OF CUNIFE
  • CUNICO
  • TABLE 46-PHYSICAL AND MECHANICAL PROPERTIES OF CUNICO
  • VICALLOY
  • TABLE 47-PHYSICAL AND MECHANICAL PROPERTIES OF VICALLOY
  • TABLE 48-NOMINAL COMPOSITIONS, CURIE TEMPERATURES AND MAGNETIC ORIENTATION OF MAGNET ALLOYS
  • TABLE 49-NOMINAL MAGNETIC PROPERTIES OF MAGNET ALLOYS
  • MAGNET STEELS
  • TABLE 50-NOMINAL COMPOSITIONS, CURIE TEMPERATURES AND MAGNETIC ORIENTATION OF MAGNET STEELS
  • FABRICATION
  • PHYSICAL AND MECHANICAL PROPERTIES
  • MAGNETIC PROPERTIES
  • TABLE 51-NOMINAL MAGNETIC PROPERTIES OF MAGNET STEELS
  • APPLICATIONS
  • PLATINUM COBALT
  • PHYSICAL AND MECHANICAL PROPERTIES
  • TABLE 52-NOMINAL MECHANICAL PROPERTIES OF PT-CO MAGNETS
  • MAGNETIC PROPERTIES
  • TABLE 53-MAGNETIC PROPERTIES OF PT-CO MAGNETS
  • APPLICATIONS
  • MISCELLANEOUS PERMANENT MAGNET MATERIALS
  • TABLE 54-MAGNETIC PROPERTIES OF MISCELLANEOUS PERMANENT MAGNET MATERIALS

11. NEW MAGNETIC MATERIALS UNDER DEVELOPMENT

  • TABLE 55-RARE EARTH FREE NEW MAGNETIC MATERIAL RESEARCH

12. INDUSTRY STRUCTURE

  • GLOBAL MANUFACTURERS
  • GLOBAL MANUFACTURERS (CONTINUED)
  • ADDITIONAL MARKET PARTICIPANTS
  • DISTRIBUTORS AND FABRICATORS
  • TABLE 56-GLOBAL DISTRIBUTORS AND FABRICATORS OF HARD FERRITE, ALNICO AND BONDED MAGNETS
  • TABLE 57-GLOBAL DISTRIBUTORS AND FABRICATORS OF NDFEB MAGNETS
  • TABLE 58-GLOBAL DISTRIBUTORS AND FABRICATORS OF SM-CO MAGNETS
  • COMPETITION AND MARKET TRENDS
  • TABLE 59-ACQUISITIONS, MERGERS, EXPANSIONS AND NEW RESEARCH FUNDING IN COMPANIES MANUFACTURING PERMANENT MAGNETS, 2009 TO JANUARY 2013
  • END USERS OF PERMANENT MAGNETS
  • TABLE 60-APPLICATIONS AND MAJOR END USERS OF PERMANENT MAGNETS IN THE U.S., EUROPE AND JAPAN
  • TABLE 61-CONTACT DETAILS FOR SOME SELECT END USERS OF PERMANENT MAGNETS IN THE U.S., EUROPE AND ASIA

13. MARKET SIZE AND SHARE

  • TABLE 62-GLOBAL MARKETS FOR PERMANENT MAGNETS
  • FIGURE 8-GLOBAL MARKET SHARE BY TYPE OF PERMANENT MAGNET
  • MARKET SIZE BY REGION
  • TABLE 63-GLOBAL OUTPUT OF PERMANENT MAGNETS BY REGION IN 2013
  • TABLE 64-GLOBAL OUTPUT OF PERMANENT MAGNETS BY REGION IN 2018
  • FIGURE 9-MAGNET PRODUCTION BY REGION

14. PATENT AND PATENT ANALYSIS

  • PATENTS RELATED TO FERRITE PERMANENT MAGNETS
  • NON-AGEING PERMANENT MAGNET FROM AN ALLOY POWDER AND METHOD FOR THE PRODUCTION THEREOF
  • METHOD OF MANUFACTURING ROTOR MAGNET FOR MICRO ROTARY ELECTRIC MACHINE
  • HIGH SPEED INTERNAL PERMANENT MAGNET MACHINE AND METHOD OF MANUFACTURING THE SAME
  • FERRITE MATERIAL AND METHOD FOR PRODUCING FERRITE MATERIAL
  • SOFT MAGNETIC RIBBON, MAGNETIC CORE, MAGNETIC PART AND PROCESS FOR PRODUCING SOFT MAGNETIC RIBBON
  • MAGNET USING BINDING AGENT AND METHOD OF MANUFACTURING THE SAME
  • FERRITE MATERIAL
  • PERMANENT MAGNET FOR MOTOR, MOTOR HOUSING, AND MOTOR DEVICE
  • PERMANENT MAGNET ROTATOR AND MOTOR USING THE SAME
  • METHOD FOR PREPARING RADIALLY ANISOTROPIC MAGNET
  • MAGNETIC ALLOY MATERIAL AND METHOD OF MAKING THE MAGNETIC ALLOY MATERIAL
  • PERMANENT MAGNET FOR PARTICLE BEAM ACCELERATOR AND MAGNETIC FIELD GENERATOR
  • PATENTS RELATED TO NEODYMIUM-IRON-BORON PERMANENT MAGNETS
  • R-FE-B RARE-EARTH SINTERED MAGNET AND PROCESS FOR PRODUCING THE SAME
  • RARE EARTH MAGNET AND METHOD FOR PRODUCING SAME
  • R-FE-B POROUS MAGNET AND METHOD FOR PRODUCING THE SAME
  • METHOD FOR PREPARING RARE EARTH PERMANENT MAGNET MATERIAL
  • METHOD FOR PREPARING RARE EARTH PERMANENT MAGNET MATERIAL
  • RARE EARTH ALLOY BINDERLESS MAGNET AND METHOD FOR
  • MANUFACTURE THEREOF
  • RARE EARTH ELEMENT-IRON-BORON ALLOY, AND MAGNETICALLY ANISOTROPIC PERMANENT MAGNET POWDER AND METHOD FOR
  • PRODUCTION THEREOF
  • METHOD FOR PREPARING RARE EARTH PERMANENT MAGNET
  • RARE EARTH MAGNET AND METHOD FOR PRODUCTION THEREOF
  • IRON-BASED RARE-EARTH NANOCOMPOSITE MAGNET AND METHOD FOR PRODUCING THE MAGNET
  • METHOD FOR PRODUCING RARE EARTH METAL-BASED PERMANENT MAGNET HAVING COPPER PLATING FILM ON THE SURFACE THEREOF
  • RARE EARTH MAGNET AND METHOD FOR PRODUCING SAME
  • PROCESS FOR PRODUCING, THROUGH STRIP CASTING, RAW ALLOY FOR NANOCOMPOSITE TYPE PERMANENT MAGNET
  • METHOD FOR PRODUCING NANOCOMPOSITE MAGNET USING ATOMIZING METHOD
  • FUNCTIONALLY GRADED RARE EARTH PERMANENT MAGNET
  • RARE EARTH PERMANENT MAGNET
  • PATENTS RELATED TO BONDED AND FLEXIBLE PERMANENT MAGNETS
  • RARE EARTH BONDED MAGNET
  • R-FE-B RARE EARTH SINTERED MAGNET AND METHOD FOR PRODUCING SAME
  • R-FE-B TYPE RARE EARTH SINTERED MAGNET AND PROCESS FOR PRODUCTION OF THE SAME
  • RARE EARTH SINTERED MAGNET AND METHOD FOR PRODUCING SAME
  • R-T-B-TYPE SINTERED MAGNET AND METHOD FOR PRODUCTION THEREOF
  • ALLOY FOR SINTERED R-T-B-M MAGNET AND METHOD FOR PRODUCING SAME
  • FERRITE POWDERS FOR BONDED MAGNET, PROCESS FOR THE PRODUCTION OF THE POWDERS, AND BONDED MAGNET MADE BY USING THE SAME
  • ANISOTROPIC RARE EARTH-IRON BASED RESIN BONDED MAGNET
  • ROTATING MACHINE, BONDED MAGNET, MAGNET ROLL, AND METHOD FOR PRODUCING SINTERED FERRITE MAGNET
  • FERRITE MAGNET POWDER, SINTERED MAGNET, BOND MAGNET, AND MAGNETIC RECORDING MEDIUM
  • PROCESS FOR PRODUCING SELF-ASSEMBLED RARE EARTH-IRON BONDED MAGNET AND MOTOR UTILIZING THE SAME
  • SINTERED R-FE-B PERMANENT MAGNET AND ITS PRODUCTION METHOD
  • YOKE-INTEGRATED BONDED MAGNET AND MAGNET ROTATOR FOR MOTOR USING THE SAME
  • ANISOTROPIC RARE EARTH BONDED MAGNET HAVING SELFORGANIZED NETWORK BOUNDARY PHASE AND PERMANENT MAGNET MOTOR UTILIZING THE SAME
  • OXIDE MAGNETIC MATERIAL AND SINTERED MAGNET
  • OXIDE-TYPE, MAGNETIC MATERIAL AND ITS PRODUCTION METHOD, AND SINTERED FERRITE MAGNET AND ITS PRODUCTION METHOD
  • R-T-B BASED SINTERED MAGNET
  • SINTERED R-FE-B PERMANENT MAGNET AND ITS PRODUCTION METHOD
  • YOKE-INTEGRATED BONDED MAGNET AND MAGNET ROTATOR FOR MOTOR USING THE SAME
  • ANISOTROPIC RARE EARTH BONDED MAGNET HAVING SELFORGANIZED NETWORK BOUNDARY PHASE AND PERMANENT MAGNET MOTOR UTILIZING THE SAME
  • BOND MAGNET FOR DIRECT CURRENT REACTOR AND DIRECT CURRENT REACTOR
  • ANISOTROPIC BONDED MAGNET FOR USE IN A 4-POLE MOTOR, A MOTOR EMPLOYING THAT MAGNET, AND AN ALIGNMENT PROCESS APPARATUS FOR THE ANISOTROPIC BONDED MAGNET FOR USE IN A 4-POLE MOTOR
  • FERRITE MAGNETIC MATERIAL AND FERRITE SINTERED MAGNET
  • METHODS FOR PRODUCING RAW MATERIAL ALLOY FOR RARE EARTH MAGNET, POWDER AND SINTERED MAGNET
  • METHODS FOR PRODUCING RAW MATERIAL ALLOY FOR RARE EARTH MAGNET, POWDER AND SINTERED MAGNET
  • ANISOTROPIC BOND MAGNET FOR FOUR-MAGNETIC-POLE MOTOR, MOTOR USING THE SAME, DEVICE FOR ORIENTATION PROCESSING OF ANISOTROPIC BOND MAGNET FOR FOUR-MAGNETIC-POLE MOTOR
  • ALLOY FLAKE FOR RARE EARTH MAGNET, PRODUCTION METHOD THEREOF, ALLOY POWDER FOR RARE EARTH SINTERED MAGNET, RARE EARTH SINTERED MAGNET, ALLOY POWDER FOR BONDED MAGNET AND BONDED MAGNET
  • METHOD FOR MANUFACTURING BONDED MAGNET AND METHOD FOR MANUFACTURING MAGNETIC DEVICE HAVING BONDED MAGNET
  • ISOTROPIC POWDERY MAGNET MATERIAL, PROCESS FOR PREPARING AND RESIN-BONDED MAGNET
  • PATENT ANALYSIS
  • TABLE 65-NUMBER OF U.S. PATENTS GRANTED TO COMPANIES IN THE PERMANENT MAGNET BUSINESS BY TYPE
  • FROM 2009 THROUGH APRIL 2013
  • TABLE 66-NUMBER OF U.S. PATENTS GRANTED TO COMPANIES IN THE PERMANENT MAGNET BUSINESS FROM 2009 THROUGH APRIL 2013
  • FIGURE 10-TOP COMPANIES GRANTED U.S. PATENTS FOR PERMANENT MAGNETS FROM 2009 THROUGH 2013
  • INTERNATIONAL OVERVIEW OF U.S. PATENT ACTIVITY IN PERMANENT MAGNETS
  • TABLE 67-U.S. PATENTS GRANTED FOR PERMANENT MAGNETS BY ASSIGNED COUNTRY/REGION FROM JANUARY 2009 TO APRIL 2013

15. COMPANY PROFILES

  • ADAM MAGNETIC PRODUCTS CO.
  • ALLSTAR MAGNETICS
  • APPLIED MAGNETS
  • NINGBO XIONGHAI MAGNETICS & MECHANISM INDUSTRIAL CO. LTD.
  • STANFORD MAGNETS
  • VIONA MAGNETICS

16. DISTRIBUTORS AND FABRICATORS OF PERMANENT MAGNETS

17. APPENDIX I & II GLOSSARY OF TERMS, QUANTITIES, SYMBOLS

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