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軟磁性材料:技術・素材・装置・新たな動向・産業構造・世界市場

Soft Magnetic Materials - Technologies, Materials, Devices, New Developments, Industry Structure and Global Markets

発行 Innovative Research and Products (iRAP) 商品コード 327437
出版日 ページ情報 英文 200 Pages
納期: 即日から翌営業日
価格
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軟磁性材料:技術・素材・装置・新たな動向・産業構造・世界市場 Soft Magnetic Materials - Technologies, Materials, Devices, New Developments, Industry Structure and Global Markets
出版日: 2015年03月30日 ページ情報: 英文 200 Pages
概要

軟磁性材料は多くの電気・電子機器において重要な役割を果たしています。主な用途として、発電・送電設備や電気モーター、無線信号・マイクロ波の受信機、リレー、ソレノイド、電磁遮蔽、電磁石などが挙げられます。産業全体としては成熟化していますが、エネルギー市場の変動に合わせて、新規素材などの新たな技術開発の動きが生じています。世界の軟磁性材料市場は、2014年に454億米ドル、2019年には666億米ドルの規模に達すると予想されています。地域別に見ると、アジア諸国、特に中国・インドでの需要が急速に拡大しており、また中国が世界最大の生産国として台頭しています。

当レポートでは、世界の軟磁性材料の市場・技術動向について分析し、全体的な市場動向 (今後6年間分) や、各種製品の特性・用途・生産量・市場規模、世界各国/米国での主な特許活動 (製品分野別)、主要メーカー・サプライヤーのプロファイルなどを調査・推計しております。

第1章 イントロダクション

第2章 エグゼクティブ・サマリー

第3章 産業概要

  • 産業構造と参入企業
  • 産業のダイナミクス
  • 軟磁性材料の価格
  • 世界市場の概況
  • 世界各地の市場概況 (中国・米国・欧州・日本・インドなど)
  • 市場規模 (数量ベース)

第4章 技術概要

  • 軟磁性材料の主な促成
  • 素材
  • 主な用途

第5章 電磁鋼板

  • 素材・種類
    • 無方向性電磁鋼板 (NOE)
    • 方向性電磁鋼板 (GOE)
  • NOE・GOEの用途
  • 市場規模
  • 産業構造
  • 近年の動向

第6章 冷間圧延積層鋼

  • 素材・種類
  • 特性
  • 製造工程・用途
  • モーターの新規効率規制の影響度
  • 市場規模
  • 産業構造
  • 近年の動向

第7章 強磁性アモルファス鋼

  • 素材
  • 種類
  • 製造工程
  • 特性
  • 用途
    • アモルファス金属変圧器 (AMT)
    • その他の用途 (モーター、変換器)
  • 産業構造
  • 市場

第8章 ソフトフェライト

  • 素材・種類
  • 特性
  • 製造工程
  • 用途
    • 非マイクロ波素材
    • マイクロ波用フェライト
  • 近年の動向
  • 産業構造・市場
  • 世界市場

第9章 鉄ニッケル合金

  • 素材・種類
    • 高ニッケル合金
    • 低ニッケル合金
  • 特性
  • 製造工程
  • 用途
  • 産業構造・市場
  • 近年の動向
  • 世界市場

第10章 鉄粉コア

  • 素材・種類
  • 生産
  • 特性
  • 用途
  • 産業構造
  • 近年の動向
  • 商用グレード
  • 世界市場

第11章 その他の軟磁性材料

  • ケイ素鉄棒および重量級条鋼
  • 鉄アルミニウム合金および鉄アルミニウム・ケイ素合金
  • 鉄コバルト合金
  • ソレノイド品質ステンレス鋼
  • 市場全体の概況

第12章 軟磁性ナノ結晶合金

  • 用途
  • 市場規模・構造
  • アモルファス/ナノ結晶合金

第13章 特許

  • 軟磁性材料関連の特許活動の概況 (国際特許・米国特許)

第14章 付録I:ソフトフェライトの用語集

第15章 付録II:電磁鋼板のメーカー・サプライヤーのプロファイル

  • AK STEEL CORPORATION
  • ALLEGHENY TECHNOLOGIES INCORPORATED
  • THYSSENKRUPP ELECTRICAL STEEL GMBH (TKES)
  • WUHAN IRON & STEEL (GROUP) CORP. (WISCO)

第16章 付録III:冷間圧延積層鋼のメーカー・サプライヤーのプロファイル

  • ARCELORMITTAL
  • ARNOLD MAGNETIC TECHNOLOGIES
  • TEMPEL STEEL
  • UNITED STATES STEEL CORPORATION

第17章 付録IV:アモルファス鋼のメーカー・サプライヤーのプロファイル

  • ADVANCED TECHNOLOGY & MATERIALS CO., LTD. (AT&M)
  • USHA AMORPHOUS METALS, LTD. (UAML)
  • VACUUMSCHMELZE GMBH & CO. KG

第18章 付録V:ソフトフェライト・鉄ニッケル合金・鉄粉等のメーカー・サプライヤーのプロファイル

  • ACME FERRITE
  • AFT MICROWAVE GMBH
  • VOGT ELECTRONICS
  • YOUNGHWA HWA FERRITE CO., LTD.
目次
Product Code: MT-102

Magnets are important and highly sophisticated engineering materials that play a fundamental role in many of the electrical and electronic systems that serve modern society.

Magnets might be divided into two classes - permanent and soft magnetic materials. Permanent magnetic materials are those which are constantly magnetized, while soft magnetic materials exhibit magnetic properties only when subjected to a magnetic field. Soft magnetic materials play a key role in power distribution, make possible the conversion between electrical and mechanical energy, underlie microwave communication, and provide both the transducers and the active storage material for data storage in information systems.

Soft magnetic materials exhibit magnetic properties only when they are subject to a magnetizing force such as the magnetic field created when current is passed through the wire surrounding a soft magnetic core. Soft ferromagnetic materials are generally associated with electrical circuits where they are used to amplify the flux generated by the electric currents. These materials can be used in alternating current (AC) as well as direct current (DC) electrical circuits.

study goals and objectives

Today, energy loss (in the magnetic cores) in transmission and electrical appliances such as motors and transformers accounts for 3.4% of overall electricity consumption in the world. Magnetic iron-silicon steels are mostly used for such applications; 96% are used in motors and transformers. However, they are already nearing saturation in terms of magnetic performance, and they will be replaced in critical applications where size and thermal performance are critical. Worldwide consumption of electrical energy might be able to be reduced significantly by the application of superior soft magnetic materials, such as innovative high-Fe soft magnetic materials with a self-organizing nanoheteromorphous structure, in electrical transport and various electrical appliances.

This iRAP report has been prepared to highlight the many new developments in the soft magnetic materials industry. Many of the market segments are mature, while others are growing at faster rates. Developing economies such as China and India are also emerging as growth engines for many industries that use soft magnetic materials. These developments have created a need for a formal analysis of the technological and business issues, trends in manufacturing, markets, and competition between countries and regions in this market. Therefore, we have updated technology and market trends in this new study.

This report has been prepared to:

  • provide an overview of the various soft magnetic materials, their production technologies and applications;
  • identify the technological and business issues related to the commercial production of soft magnetic materials;
  • understand the inter-material competition among the various soft magnetic materials;
  • analyze competition among companies within each of the soft magnetic materials market segments;
  • determine the current size and future growth of the global markets for soft magnetic materials; and
  • identify and profile all global producers and suppliers of soft magnetic materials.

Contributions of the study

iRAP''s technical and economic study covers technology and industry overviews, materials, current and emerging production methods, new developments in materials and processing techniques, business and technology issues, current and emerging applications, and an extensive market analysis. Current size and future growth of global markets are estimated for 2014 and 2019.

FORMAT AND SCOPE

This report reviews the technology of soft magnetic materials, the types of soft magnetic materials, 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 the category, processing technologies, properties, applications, new developments and patents, the industry structure, global markets and competition.

The qualitative and quantitative judgments in this report contribute to the current knowledge of soft magnetic materials, their manufacturing technologies, applications, and markets. New efficiency standards in most countries for transformers and motors have resulted in fast adoption of amorphous steel in the last five years. This study has carved out all these new developments and new market opportunities.

The report further provides profiles of companies producing and supplying electrical steels, cold rolled motor lamination steels, amorphous steels and profiles of those producing and supplying soft ferrites, nickel iron alloys, powder iron, and other materials (silicon iron, cobalt iron and solenoid quality stainless steels).

TO WHOM THE STUDY CATERS

This report is directed to the various strata of companies interested in developments in this field, including:

  • steel manufacturers;
  • companies involved in the development, manufacturing, and supplying of advanced materials;
  • manufacturers and suppliers of soft magnetic materials;
  • manufacturers of powder metallurgy products;
  • manufacturers and suppliers of systems and subsystems which incorporate soft magnets;
  • manufacturers of transformers, generators, motors, relays, solenoids, magnetic shielding, computer memories, recording heads, and similar devices;
  • manufacturers and suppliers of raw materials for soft ferrites;
  • importers and suppliers of soft magnetic materials; and
  • users of electrical steel, cold rolled lamination steel, amorphous steel, soft ferrites, nickel-iron alloys, iron-cobalt alloys, solenoid-quality stainless steel, etc.

REPORT SUMMARY

Soft magnetic materials play a fundamental role in many of the electrical and electronic systems that characterize modern society. These materials are used in applications such as electrical power generation and transmission, electric motors, receipt of radio signals and microwaves, relays, solenoids, magnetic shielding and electromagnets. The properties of the materials used are being continuously improved.

The global soft magnetic material industry is a mature industry. However, a new energy paradigm, consisting of greater reliance on renewable energy sources and increased concern for energy efficiency in the total energy life-cycle, has accelerated research into energy-related technologies. New improved materials with higher energy efficiency have been demonstrated for amorphous and nanocrystalline soft magnetic materials. While amorphous steel has been used extensively as the core material for transformers and motors, the emerging nanocrystalline core material has even higher efficiency and will see much higher growth in the future.

Major findings of this report are:

  • According to the new study, the 2014 global market for soft magnetic materials stood at about $45.4 billion, and it is estimated to reach $66.6 billion by 2019. The compounded annual growth rate (CAGR) is expected to be 7.9% from 2014 to 2019.
  • The steel segment, which consists of electrical steel, cold-rolled lamination steel, and amorphous steel, has the largest market share.
  • In terms of dollar value, amorphous steel is expected to have the fastest growth rate followed by soft ferrites and other steels.
  • In terms of regional demand, Asia's demand for electrical steel has increased astronomically. It is the only region in the world that increased consumption of electrical steel from 2008 and will see growth to 2019.
  • Electrical steel is of great importance in China and India due to increasing energy consumption, concomitant with their strong economic growth. Not only are China and India putting new transformers into use, they are also replacing older transformers to improve grid reliability. Both are seeking higher efficiency, grain-oriented steels to reduce energy losses.
  • In terms of industry structure, China now is the largest soft magnetic materials producer in the world due to its low cost, highly trained labor force and vast raw materials.

Table of Contents

1. INTRODUCTION

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

2. EXECUTIVE SUMMARY

  • SUMMARY TABLE : GLOBAL MARKET FOR SOFT MAGNETIC MATERIALS, 2014 AND 2019
  • SUMMARY FIGURE :GLOBAL SHARE OF SOFT MAGNETIC MATERIALS MARKET SEGMENTS, 2014 AND 2019

3. INDUSTRY OVERVIEW

  • INDUSTRY STRUCTURE AND PLAYERS
  • INDUSTRY DYNAMICS
  • PRICES OF SOFT MAGNETIC MATERIALS
    • TABLE 1 AVERAGE PRICES OF SOFT MAGNETIC MATERIALS, 2014
  • GLOBAL MARKET OVERVIEW
    • TABLE 2 GLOBAL MARKET FOR SOFT MAGNETIC MATERIALS, 2014 AND 2019
  • MARKET HIGHLIGHTS
  • China
  • United States
  • Europe
  • Japan
  • India
  • Rest of the world (row)
  • MARKET VOLUME IN TONS
    • TABLE 3 GLOBAL MARKETS FOR SOFT MAGNETIC MATERIALS, 2014-2019
    • TABLE 4 GLOBAL MARKET SHARE FOR SOFT MAGNETIC MATERIALS, 2014 AND 2019
    • FIGURE 1 GLOBAL SHARE OF SOFT MAGNETIC MATERIALS MARKET SEGMENTS, 2014 AND 2019

4. TECHNOLOGY OVERVIEW

  • IMPORTANT PROPERTIES OF SOFT MAGNETIC MATERIALS
  • PERMEABILITY
  • COERCIVITY
  • SATURATION MAGNETIZATION
  • HYSTERESIS LOSS
  • DESIRABLE PROPERTIES
  • MATERIALS
  • MAJOR APPLICATIONS
  • MOTORS AND GENERATORS
    • TABLE 5 SOFT MAGNETIC MATERIALS USED FOR MOTORS AND GENERATORS
  • TRANSFORMERS
    • TABLE 6 SOFT MAGNETIC ALLOYS USED FOR TRANSFORMERS
  • ELECTROMAGNETS AND RELAYS
  • OTHER APPLICATIONS

5. ELECTRICAL STEELS

  • MATERIALS AND TYPES
    • TABLE 7 ASTM LETTER CODE DESIGNATIONS FOR ELECTRICAL STEEL AND LAMINATION STEEL GRADES
    • TABLE 8 STANDARDIZATION OF AVAILABLE GRAIN-ORIENTED ELECTRICAL STEELS (GOES) IN 2014
  • NON-ORIENTED ELECTRICAL STEELS (NOES)
  • Semi-processed grades
  • Fully processed grades
    • TABLE 9 STANDARDIZATION OF AVAILABLE NON-GRAIN-ORIENTED ELECTRICAL STEELS-NOES IN 2014
    • TABLE 10 COMMERCIAL GRADES AND MANUFACTURERS OF ELECTRICAL STEELS (NOES AND GOES) IN 2014
  • PROPERTIES OF NOES AND GOES
    • TABLE 11 SELECTED MAGNETIC PROPERTIES OF NOES AND GOES
    • TABLE 12A MAGNETIC AND THERMAL PROPERTIES OF SELECTED CONVENTIONAL (NOES, GOES) AND HIGH-PERMEABILITY FLAT-ROLLED ELECTRICAL STEELS
    • TABLE 12B MAGNETIC AND THERMAL PROPERTIES OF SELECTED CONVENTIONAL(NOES, GOES) AND HIGH-PERMEABILITY FLAT-ROLLED ELECTRICAL STEELS
  • FABRICATION PROCESS
  • NON-ORIENTED SILICON STEELS (NOES)
  • GRAIN-ORIENTED SILICON STEELS (GOES)
    • TABLE 13 TYPICAL VALUES OF ELECTRICAL LOSS IN ELECTRICAL STEEL (GOES)
  • Manufacturing complexity of GOES
    • FIGURE 2 TYPICAL PROCESS SEQUENCE FOR PRODUCING GRAIN-ORIENTED SILICON STEEL
  • APPLICATIONS FOR NOES AND GOES
    • TABLE 14 SILICON CONTENT, MASS DENSITIES, AND APPLICATIONS OF ELECTRICAL STEEL SHEET AND STRIP (NOES, GOES AND HIB)
  • MARKET SIZE
    • TABLE 15 GLOBAL MARKETS FOR ELECTRICAL STEEL, 2014 AND 2019
    • TABLE 16 AVERAGE PRICES OF ELECTRICAL STEEL, 2014 AND 2019
    • TABLE 17 GLOBAL MARKETS FOR ELECTRICALSTEEL, 2014 AND 2019
    • TABLE 18 ELECTRICAL STEEL MARKET BY REGIONS, 2014 AND 2019
  • INDUSTRY STRUCTURE
  • NEW DEVELOPMENTS
  • MERGERS AND ACQUISITIONS
    • TABLE 19 ACQUISITIONS, MERGERS AND TIEUPS AMONG MANUFACTURERS OF ELECTRICAL STEEL BETWEEN 2009 AND 2014
  • COMPETITION FROM OTHER STEELS

6. COLD ROLLED LAMINATION STEEL

  • MATERIALS AND TYPES
    • TABLE 20 GRADES OF COLD-ROLLED MOTOR LAMINATION STEEL
  • PROPERTIES
    • TABLE 21 TYPICAL MAGNETIC PROPERTIES OF LOW-CARBON STEEL STRIP
    • TABLE 22 TYPICAL PROPERTIES OF COLD-ROLLED LAMINATION STEEL
    • TABLE 23 TYPICAL MAXIMUM CORE LOSS* FOR U.S. STEEL GRADES (WATTS PER POUND, 60 HZ AT 1.5T)
    • TABLE 24 COMMERCIAL GRADES AND MANUFACTURERS OF COLD-ROLLED MOTOR LAMINATION STEELS IN 2014
    • TABLE 25 COMMERCIALLY AVAILABLE THIN-GAUGE SILICON STEELS
  • FABRICATION PROCESS APPLICATIONS
    • TABLE 26 APPLICATIONS FOR COLD-ROLLED LAMINATION STEEL
  • IMPACT OF NEW EFFICIENCY REGULATIONS FOR MOTORS
  • WHY EFFICIENCY RAISES PRICES
  • WHY EFFICIENCY RAISES PRICES (CNTD.) 58
  • MOTOR DESIGNS
  • MARKET SIZE
    • TABLE 27 GLOBAL MARKET FOR COLD-ROLLED MOTOR LAMINATION STEEL, 2014 AND 2019
    • TABLE 28 REGIONAL MARKET DEMAND FOR COLD-ROLLED MOTOR LAMINATION STEEL
  • INDUSTRY STRUCTURE
  • NEW DEVELOPMENTS
    • TABLE 29 DEVELOPMENTS IN COLD-ROLLED MOTOR LAMINATION STEEL

7. FERRO MAGNETIC AMORPHOUS STEEL

  • MATERIALS
  • METGLAS
  • TYPES
  • Metal-metalloid systems
    • TABLE 30 FAMILIES OF GLASSY METALS BASED ON CHEMICAL CLASSIFICATION OF CONSTITUENTS
    • TABLE 31 COMPOSITION OF METGLAS™ ALLOYS Metal-metal systems
  • FABRICATION PROCESS
    • FIGURE 3 ILLUSTRATION OF THE MELT SPINNING TECHNIQUE TO PRODUCE METALLIC GLASSES
    • FIGURE 4 SCHEMATIC ILLUSTRATION OF PLANAR FLOW CASTING PROCESS
    • FIGURE 5 ALLIED'S PLANAR FLOW CASTING PROCESS TO MAKE CONTINUOUS METALLIC GLASS RIBBONS
  • PROPERTIES
  • MECHANICAL PROPERTIES
  • Strength
    • TABLE 32 YIELD STRENGTHS OF IRON-BASED GLASSES COMPARED WITH SOME CONVENTIONAL POLYCRYSTALLINE STEELS
  • Toughness
    • TABLE 33 TOUGHNESS (REARING ENERGY) OF SOME METALLIC GLASSES COMPARED WITH OTHER MATERIALS
  • Hardness
    • TABLE 34 HARDNESS OF METALLIC GLASSES COMPARED WITH STAINLESS STEEL
  • CHEMICAL
  • Corrosion resistance
  • THERMAL
  • ELECTRICAL
  • Resistivity
  • Conductivity
  • MAGNETIC
  • General
  • Saturation magnetization
  • Coercive force
  • Magnetostriction
  • Curie temperature
  • PROPERTIES OF COMMERCIALLY AVAILABLE METGLASTM METALLIC GLASS
    • TABLE 35 MAGNETIC PROPERTIES OF VARIOUS METALLIC GLASSES AND SOME CONVENTIONAL SOFT MAGNETIC MATERIALS
  • APPLICATIONS
    • TABLE 36 MERITS AND RELATIVE COST OF METGLAS PRODUCTS FOR ELECTROMAGNETIC APPLICATIONS
    • TABLE 37 METGLAS MATERIALS AND TYPICAL APPLICATIONS
  • AMORPHOUS METAL TRANSFORMERS (AMTS)
  • Distribution transformers
    • TABLE 38 COMPARING AMORPHOUS AND SILICON UNITS
  • Power transformers
  • Current transformers
  • 400hz transformers
  • OTHER APPLICATIONS
  • Motors
  • Transducers
  • INDUSTRY STRUCTURE AND MARKETS
  • MARKETS
    • TABLE 39 REGIONAL MARKETS FOR AMORPHOUS METGLAS STEEL, 2014 AND 2019
    • TABLE 40 MARKET FOR AMORPHOUS METGLAS STEEL BY APPLICATION

8. SOFT FERRITES

  • MATERIALS AND TYPES
  • SHAPES AND CONFIGURATIONS
    • TABLE 41 COMMON SHAPES AND CONFIGURATIONS FOR SOFT FERRITES
  • PROPERTIES
    • TABLE 42 TYPICAL PHYSICAL CHARACTERISTICS OF MN-ZN AND NI-ZN SOFT FERRITES
    • TABLE 43A TYPICAL MAGNETIC CHARACTERISTICS OF MN-ZN AND NI-ZN SOFT FERRITES
    • TABLE 43B TYPICAL MAGNETIC CHARACTERISTICS OF MN-ZN AND NI-ZN SOFT FERRITES
    • TABLE 43C TYPICAL MAGNETIC CHARACTERISTICS OF MN-ZN AND NI-ZN SOFT FERRITES
    • TABLE 44 PROPERTIES OF REPROGRAPHIC FERRITE CORES
  • FABRICATION PROCESS
    • FIGURE 6 FLOWCHART FOR STANDARD CERAMIC PROCESSING OF FERRITE COMPONENTS
  • FABRICATION PROCESS (CNTD.)
    • FIGURE 7 TYPICAL PROCESS FLOWCHART FOR FERRITE CARRIER CORE MATERIALS
  • APPLICATIONS
    • TABLE 45 SOFT FERRITE MAGNETIC DEVICES AND APPLICATIONS
  • NON-MICROWAVE MATERIAL
    • TABLE 46 SOFT FERRITE APPLICATIONS
  • Telecommunications
    • TABLE 47 TYPICAL COMMERCIAL FERRITES
  • Power applications
  • Consumer applications
  • MICROWAVE FERRITES
  • Circulator
  • Isolator
  • Phase shifter
  • NEW DEVELOPMENTS
  • NANOCRYSTRALLINE FERRITES
  • INDUSTRY STRUCTURE AND MARKETS
    • TABLE 48 COMMERCIAL GRADES AND MANUFACTURERS OF SOFT FERRITES, 2014
  • GLOBAL MARKET
    • TABLE 49 AVERAGE PRICES OF SOFT MAGNETIC MATERIALS, 2014
    • TABLE 50 GLOBAL MARKET FOR SOFT FERRITE, 2014 AND 2019
    • TABLE 51 GLOBAL MARKET VOLUME (WEIGHT) FOR SOFT FERRITES
  • BY TYPE, 2014 AND 2019
    • TABLE 52 GLOBAL MARKET VOLUME (DOLLARS) FOR SOFT FERRITE
    • TABLE 53 GLOBAL MARKET DEMAND OF SOFT FERRITE BY REGION, 2014-2019

9. NICKE-IRON ALLOYS

  • MATERIALS AND TYPES
  • HIGH NICKEL ALLOYS
  • LOW NICKEL ALLOYS
  • PROPERTIES
  • MECHANICAL PROPERTIES
    • TABLE 54 SELECTED MAGNETIC PROPERTIES OF DIFFERENT NICKEL-IRON ALLOYS
    • TABLE 55 DC MAGNETIC PROPERTIES OF CARPENTER'S HIGH PERMEABILITY "49" ALLOY
    • TABLE 56 DC AND AC MAGNETIC PROPERTIES OF CARPENTER'S HYMU 800 ALLOY
  • PHYSICAL AND MECHANICAL PROPERTIES
    • TABLE 57 TYPICAL HEAT TREATMENTS AND PHYSICAL AND MECHANICAL PROPERTIES OF NICKEL-IRON ALLOYS
  • FABRICATION PROCESS
  • MELTING AND CASTING
  • HEAT TREATMENT
  • APPLICATIONS
    • TABLE 58 APPLICATIONS OF NICKEL-IRON AND IRON-COBALT SOFT ALLOYS
    • TABLE 59 COMMERCIAL GRADES AND MANUFACTURERS OF NICKEL-IRON ALLOYS IN 2014
  • INDUSTRY STRUCTURE AND MARKETS
  • NEW DEVELOPMENTS IN 2014
  • GLOBAL MARKETS
    • TABLE 60 GLOBAL MARKET BY WEIGHT FOR NICKEL-IRON ALLOYS, 2014 AND 2019
    • TABLE 61 GLOBAL MARKET BY VALUE FOR NICKEL IRON ALLOYS, 2014 AND 2019
    • TABLE 62 GLOBAL MARKET DISTRIBUTION OF NICKEL-IRON ALLOYS BY REGION, 2014 AND 2019

10. IRON POWDER CORE

  • MATERIALS AND TYPES
  • PRODUCTION
    • FIGURE 8 PROCESS FLOW FOR THE PRODUCTION OF IRON POWDER CORE
  • PROPERTIES
  • APPLICATIONS
  • INDUSTRY STRUCTURE
  • NEW DEVELOPMENTS IN 2014
    • TABLE 63 NEW DEVELOPMENTS IN PURE IRON POWDER IN 2014
  • COMMERCIAL GRADES
    • TABLE 64 COMMERCIAL GRADES AND SUPPLIERS OF PM MAGNETIC MATERIAL IRON POWDER IN 2014
  • GLOBAL MARKETS
    • TABLE 65 GLOBAL MARKET DISTRIBUTION OF POWDER IRON BY REGION, 2014 AND 2019

11. OTHER SOFT MAGNETIC MATERIALS

  • SILICON-IRON BAR AND HEAVY STRIP
    • TABLE 66 TYPICAL DC MAGNETIC PROPERTIES OF IRON,LOW-CARBON STEEL, AND SILICON-IRON BAR PRODUCTS
  • MANUFACTURING AND APPLICATIONS
  • MARKET STRUCTURE
    • TABLE 67 GLOBAL MARKET FOR SILICON-IRON
  • NEW DEVELOPMENTS IN 2014
  • IRON-ALUMINUM AND IRON-ALUMINUM-SILICON ALLOYS
  • IRON-COBALT ALLOYS
  • TYPES AND PROPERTIES
    • TABLE 68 SELECTED MAGNETIC PROPERTIES OF DIFFERENT IRON-COBALT ALLOYS
  • APPLICATIONS
  • MARKET STRUCTURE
  • MARKET SIZE
    • TABLE 69 GLOBAL MARKET FOR IRON-COBALT
    • TABLE 70 COMMERCIAL GRADES AND SUPPLIERS OF IRON-COBALT
  • SOLENOID QUALITY STAINLESS STEEL
  • MANUFACTURING
  • MARKET STRUCTURE
  • MARKET SIZE
    • TABLE 71 GLOBAL MARKET FOR SOLENOID QUALITY STAINLESS STEEL
  • NEW DEVELOPMENTS IN 2014
  • OVERALL MARKET SUMMARY
    • TABLE 72 AVERAGE GLOBAL PRICES FOR OTHER SOFT MAGNETIC MATERIALS, 2014
    • TABLE 73 GLOBAL MARKETS FOR OTHER SOFT MAGNETIC MATERIALS
  • BY WEIGHT, 2014 AND 2019
    • TABLE 74 GLOBAL MARKET FOR OTHER SOFT MAGNETIC MATERIALS
  • BY DOLLAR VOLUME, 2014 AND 2019
    • TABLE 75 GLOBAL MARKET DISTRIBUTION OF OTHER SOFT MAGNETIC MATERIALS BY REGION, 2014 AND 2019

12. SOFT MAGNETIC NANOCRYSTALLINE ALLOY

  • APPLICATIONS
  • MARKET SIZE AND STRUCTURE
  • AMORPHOUS VERSUS NANOCRYSTALLINE ALLOYS
    • TABLE 76 COMMERCIAL GRADES AND SUPPLIERS OF NANOCRYSTALLINE ALLOYS USED AS SOFT MAGNETIC MATERIALS IN 2014 NEW DEVELOPMENTS

13. PATENTS

  • TABLE 77 NUMBER OF U.S. SOFT MAGNETIC MATRIALS PATENTS, 2010 THROUGH JULY 2014
  • OVERVIEW OF INTERNATIONAL U.S. PATENT ACTIVITY IN SOFT MAGNETIC MATERIALS
    • TABLE 78 NUMBER OF U.S. SOFT MAGNETIC MATERIALS PATENTS ASSIGNED BY COUNTRY/REGION FROM JANUARY 2010 THROUGH JULY 2014
    • TABLE 79 TOP U.S. SOFT MAGNETIC MATERIALS PATENT ASSIGNEES, JANUARY 2010 THROUGH JULY 2014
    • FIGURE 9 TOP U.S. SOFT MAGNETIC MATERIALS PATENT ASSIGNEES, JANUARY 2010 THROUGH JULY 2014
  • PATENTS IN ELECTRICAL STEELS
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND METHOD OF MANUFACTURING THE SAME
  • TREATMENT SOLUTION FOR INSULATION COATING FOR GRAIN ORIENTED ELECTRICAL STEEL SHEET AND METHOD FOR PRODUCING GRAIN ORIENTED ELECTRICAL STEEL SHEET HAVING INSULATION COATING
  • MANUFACTURING METHOD OF GRAIN-ORIENTED MAGNETIC STEEL SHEET
  • MANUFACTURING METHOD OF GRAIN-ORIENTED ELECTRICAL STEEL SHEET
  • MANUFACTURING METHOD OF GRAIN-ORIENTED ELECTRICAL STEEL SHEET
  • METHOD FOR PRODUCING GRAIN-ORIENTED SILICON STEEL CONTAINING COPPER
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND PRODUCING METHOD THEREFOR
  • METHOD OF PRODUCING GRAIN-ORIENTED ELECTRICAL STEEL SHEET
  • METHOD OF TREATING STEEL FOR GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND METHOD OF MANUFACTURING GRAIN-ORIENTED ELECTRICAL STEEL SHEET
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND PROCESS FOR PRODUCING THE SAME
  • LOW CORE LOSS GRAIN-ORIENTED ELECTRICAL STEEL PLATE AND METHOD OF MANUFACTURING THE SAME
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET HAVING HIGH TENSILE STRENGTH INSULATING FILM AND METHOD OF TREATMENT OF SUCH INSULATING FILM
  • ULTRA-HIGH MAGNETIC FLUX DENSITY GRAIN-ORIENTED ELECTRICAL STEEL SHEET EXCELLENT IN IRON LOSS AT A HIGH MAGNETIC FLUX DENSITY AND FILM PROPERTIES AND METHOD FOR PRODUCING THE SAME
  • METHOD OF PRODUCTION OF GRAIN-ORIENTED ELECTRICAL STEEL SHEET HAVING A HIGH MAGNETIC FLUX DENSITY
  • METHOD OF PRODUCTION OF GRAIN-ORIENTED ELECTRICAL STEEL SHEET WITH HIGH MAGNETIC FLUX DENSITY
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET EXCELLENT IN COATING ADHESION AND METHOD OF PRODUCING THE SAME
  • HIGH PERMEABILITY GRAIN ORIENTED ELECTRICAL STEEL
  • METHOD FOR PRODUCTION AND APPARATUS FOR PRODUCTION OF GRAIN-ORIENTED ELECTRICAL STEEL SHEET EXCELLENT IN MAGNETIC PROPERTIES
  • LOW CORE LOSS GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND METHOD FOR PRODUCING THE SAME
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET EXTREMELY EXCELLENT IN MAGNETIC PROPERTIES AND METHOD OF PRODUCTION OF SAME
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET HAVING INSULATING FILM NOT CONTAINING CHROMIUM AND INSULATING FILM AGENT OF SAME
  • METHOD OF PRODUCING GRAIN-ORIENTED ELECTRICAL STEEL SHEET VERY EXCELLENT IN MAGNETIC PROPERTIES
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET SUPERIOR IN CORE LOSS CHARACTERISTIC
  • METHOD OF PRODUCTION OF GRAIN-ORIENTED ELECTRICAL STEEL SHEET
  • GRAIN-ORIENTED ELECTRICAL STEEL SHEET AND METHOD FOR MANUFACTURING GRAIN-ORIENTED ELECTRICAL STEEL SHEET
  • PATENTS IN SILICON STEELS
  • METHOD OF AND APPARATUS FOR HOT ROLLING A THIN SILICON-STEEL WORKPIECE INTO SHEET STEEL
  • ROTATING ELECTRICAL MACHINE WITH DIFFERENT LAMINATION STEEL KINDS AND SPACING
  • PROCESS AND DEVICE FOR PRODUCING STRIPS OF SILICON STEEL OR MULTIPHASE STEEL
  • FERRIC PICKLING OF SILICON STEEL
  • METHOD AND SYSTEM FOR MANUFACTURING ELECTRICAL SILICON STEEL
  • PATENTS IN AMORPHOUS STEELS
  • AMORPHOUS METAL CONTINUOUS FLUX PATH TRANSFORMER AND METHOD OF MANUFACTURE
  • UTILIZATION OF AMORPHOUS STEEL SHEETS IN HONEYCOMB STRUCTURES
  • AMORPHOUS FE100-A-BPAMB ALLOY FOIL AND METHOD FOR ITS PREPARATION
  • AMORPHOUS FE AND CO BASED METALLIC FOAMS AND METHODS OF PRODUCING THE SAME
  • THERMOPLASTICALLY PROCESSABLE AMORPHOUS METALS AND METHODS FOR PROCESSING SAME
  • NON-FERROMAGNETIC AMORPHOUS STEEL ALLOYS CONTAINING LARGE-ATOM METALS
  • PATENT IN SOFT FERRITES
  • MAGNETICALLY SOFT POWDER COMPOSITE MATERIAL, METHOD FOR MANUFACTURING SAME, AND ITS USE 163

14. APPENDIX I SOFT FERRITE TERMINOLOGY

  • SOFT FERRITE TERMINOLOGY

15. APPENDIX II COMPANY PROFILES OF PRODUCERS AND SUPPLIERS OF ELECTRICAL STEELS

  • AK STEEL CORPORATION
  • ALLEGHENY TECHNOLOGIES INCORPORATED 166
  • THYSSENKRUPP ELECTRICAL STEEL GMBH (TKES)
  • WUHAN IRON & STEEL (GROUP) CORP. (WISCO)

16. APPENDIX III COMPANY PROFILES OF PRODUCERS AND SUPPLIERS OF COLD-ROLLED LAMINATION STEELS

  • ARCELORMITTAL 1
  • ARNOLD MAGNETIC TECHNOLOGIES 172
  • TEMPEL STEEL
  • UNITED STATES STEEL CORPORATION 175

17. APPENDIX IV COMPANY PROFILES OF PRODUCERS AND SUPPLIERS OF AMORPHOUS STEELS

  • ADVANCED TECHNOLOGY & MATERIALS CO., LTD. (AT&M)
  • USHA AMORPHOUS METALS, LTD. (UAML) 178
  • VACUUMSCHMELZE GMBH & CO. KG 179

18. APPENDIX V COMPANY PROFILES OF PRODUCERS AND SUPPLIERS OF SOFT FERRITES, NICKEL-IRON ALLOYS, POWDERED IRON AND OTHERS

  • ACME FERRITE
  • AFT MICROWAVE GMBH
  • VOGT ELECTRONICS
  • YOUNGHWA HWA FERRITE CO., LTD.
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