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Powder Metallurgy: Technologies and Global Markets

  • February 2016
  • -
  • BCC Research
  • -
  • 130 pages

This BCC Research report aims to provide the up-to-date information on the current status of the global powder metallurgy market and to assess its growth potential from 2015 to 2020.

REPORT HIGHLIGHTS

The global market for powder shipments reached 3.3 billion pounds, a value of $8 billion in 2015, and should reach 4.3 billion pounds ($13.5 billion) in 2020, demonstrating a compound annual growth rate (CAGR) of 5.1% in volume terms and 10.9% in market value from 2015 to 2020.

This report provides:

- An overview of the global markets for powder metallurgy.
- Analyses of global market trends, with data from 2014, estimates for 2015, and projections of compound annual growth rates (CAGRs) through 2020.
- Discussion of manufacturing capability and consumption by regional markets.
- Examinations of industry standards, government and industry support, and other key factors related to the success of powder metallurgy.
- Projections of technological issues, trends, and other influential factors.
- Profiles of leading companies in the industry that manufacture powder metal and other related materials used in the process, such as ceramics and nanopowders, special alloys, and metal matrix composites; and companies that make parts and components for automotive products, industrial and tolling equipment, recreation and hobby items, appliances, business machines, and other products.

SCOPE OF REPORT

This report analyzes the PM industry on a global basis, including manufacturing capability and consumption by regional markets. It also examines industry standards, government and industry support, and other key factors related to the success of PM.
Market drivers within the industry are identified. The quantity and value of various powders and parts shipments are projected from 2014 to 2015, and then over a five-year period from 2015 to 2020. Technological issues and trends are projected and other influential factors are discussed.
The report identifies major manufacturers of powder metal and other related materials, such as ceramics and nanopowders, special alloys and metal matrix composites. It also includes companies that make parts and components for automotive products, industrial and tooling equipment, recreation and hobby items, appliances, business machines and other products.


Table Of Contents

Powder Metallurgy: Technologies and Global Markets

CHAPTER 1 INTRODUCTION 2
STUDY GOAL AND OBJECTIVES 2
REASONS FOR DOING THE STUDY 2
SCOPE OF REPORT 2
METHODOLOGY 2
INFORMATION SOURCES 3
ANALYSTS' CREDENTIALS 3
RELATED BCC RESEARCH REPORTS 3
BCC RESEARCH WEBSITE 4
DISCLAIMER 4
CHAPTER 2 SUMMARY 6
SUMMARY TABLE GLOBAL POWDER METALLURGY PARTS AND POWDER
SHIPMENTS,THROUGH 2020 (MILLION LBS/$ MILLIONS) 6
SUMMARY FIGURE GLOBAL POWDER METALLURGY PARTS AND POWDER
SHIPMENTS,2014-2020 ($ MILLIONS) 7
CHAPTER 3 OVERVIEW 9
HISTORY 9
POWDER METALLURGY PROCESS 10
TABLE 1 OVERVIEW OF THE POWDER METALLURGY PROCESS 10
MAKING METAL POWDERS 11
TABLE 2 BASIC POWDER MANUFACTURING PROCESSES 11
PARTICULATE MATERIALS 11
POWDER METALLURGY APPLICATIONS 12
TABLE 3 END-PRODUCTS THAT USE POWDER METALLURGY PARTS 12
CHAPTER 4 INDUSTRY STRUCTURE 14
INDUSTRY STRUCTURE 14
TABLE 4 GLOBAL POWDER METALLURGY INDUSTRY STRUCTURE,2015 14
KEY COMPANIES IN THE POWDER METALLURGY INDUSTRY 15
TABLE 5 KEY COMPANIES IN THE GLOBAL POWDER METALLURGY INDUSTRY 15
CHARACTERISTICS OF THE 2015 POWDER METALLURGY INDUSTRY 18
POWDER METALLURGY MANUFACTURING BY REGION 19
TABLE 6 GLOBAL SHARE OF POWDER METALLURGY MANUFACTURING BY
REGION,2014-2020 (%) 19
FIGURE 1 GLOBAL SHARE OF POWDER METALLURGY MANUFACTURING BY
REGION,2014-2020 (%) 20
CONSUMPTION OF POWDER METALLURGY PRODUCTS BY REGION 20
TABLE 7 GLOBAL POWDER METALLURGY CONSUMPTION BY REGION,2014-2020 (%) 21
FIGURE 2 GLOBAL POWDER METALLURGY CONSUMPTION BY REGION,2014-2020
(%) 21
MARKET LEADERS 21
LEADING PARTS AND COMPONENT FABRICATORS 21
FIGURE 3 LEADING POWDER METALLURGY COMPONENT MANUFACTURERS,2014
(%) 22
LEADING METAL POWDER PRODUCERS 22
FIGURE 4 LEADING METALLURGY POWDER MANUFACTURERS,2014 (%) 22
COMPANY PROFILES 23
ACUPOWDER INTERNATIONAL 24
ADVANCED MATERIALS TECHNOLOGIES PTE LTD. 24
ADVANCED METALWORKING PRACTICES 25
ALPHA SINTERED METAL INC. 25
BASF 26
BORGWARNER INC. 27
CAPSTAN CALIFORNIA 28
CARPENTER TECHNOLOGY CORP. 29
CHICAGO POWDER METAL PRODUCTS 30
DORST TECHNOLOGIES 30
FEDERAL-MOGUL CORP. 31
FUKUDA METAL FOIL AND POWDER CO. LTD. 32
GKN SINTER METALS 33
H.C. STARCK 33
HITACHI POWDERED METALS CO. LTD. 34
HOEGANAES CORP. 35
HOGANAS AB 36
KENNAMETAL INC. 36
METAL POWDER PRODUCTS COMPANY 37
MIBA AG 38
NIPPON PISTON RING CO. LTD. 39
NTN ADVANCED MATERIALS CORP. 39
OBE GMBH 40
RAINBOW MING INDUSTRIAL CO. 41
STACKPOLE INTERNATIONAL 41
CHAPTER 5 TECHNOLOGY 44
CONVENTIONAL POWDER METALLURGY 44
TABLE 8 POWDER METALLURGY PROCESS 45
POWDER MIXING 46
COMPACTING 46
Single-Action Pressing 47
Multiaction Pressing 47
Double-Die Pressing 47
SINTERING 47
TABLE 9 CONTINUOUS-SINTERING FURNACES BY TYPE 47
Sinter Hardening 48
Electric Current Assisted Sintering 48
FULLY DENSE PROCESSING 49
HOT ISOSTATIC PRESSING 49
TABLE 10 BASIC HOT ISOSTATIC PRESSING PROCESS 49
COLD ISOSTATIC PRESSING 50
TABLE 11 BASIC COLD ISOSTATIC PRESSING PROCESS 50
ROLL COMPACTION 51
HOT EXTRUSION 51
METAL-INJECTION MOLDING 51
TABLE 12 BASIC METAL INJECTION MOLDING PROCESS 52
Powder-Injection Molding 52
HIGH-DENSITY PROCESSING OF FERROUS METAL PARTS 53
IMPACT OF RAW MATERIALS 53
DIE WALL LUBRICATION 53
HIGH-TEMPERATURE SINTERING 53
WARM COMPACTION 54
TABLE 13 WARM COMPACTING PROCESS 54
POWDER FORGING 55
ADDITIVE MANUFACTURING 55
TABLE 14 METALS USED IN ADDITIVE MANUFACTURING 55
DIGITAL LIGHT PROCESSING (DLP) 56
DIRECT METAL LASER SINTERING 56
SELECTIVE LASER MELTING 57
ELECTRON BEAM MELTING 57
EMERGING TECHNOLOGIES 58
SECONDARY OPERATIONS 58
TABLE 15 SECONDARY OPERATIONS 58
COINING AND SIZING 59
IMPREGNATION 59
INFILTRATION 60
HEAT TREATING 60
MACHINING 61
FINISHING 61
METAL POWDER PRODUCTION AND PROCESSING 61
FERROUS-POWDER PRODUCTION 61
Atomization 61
TABLE 16 WATER AND GAS ATOMIZATION PROCESS COMPARISONS 62
Reduction of Oxides 62
Electrolytic Deposition 62
OTHER POWDER PROCESSING OPERATIONS 63
Diffusion Bonding 63
Segregation-Free Processing 63
NONFERROUS POWDER PRODUCTION 63
Aluminum-Based Powders 63
Air or Inert Gas Atomization 63
Ball Milling 63
Copper-Based Powders 64
Oxide Reduction 64
Water or Air Atomization 64
Nickel-Based Powders 64
Hydrometallurgical Processing 64
Gas Atomization 64
Plasma-Rotating Electrode Process 64
Titanium-Based Powders 65
Kroll Process 65
Plasma Quench Processing 65
Refractory Metal Powders 65
RECENT DEVELOPMENTS 65
EXPANDING THE DEFINITION OF POWDER METALLURGY MATERIALS 66
TABLE 17 PARTICULATE MATERIALS 66
IMPACT OF PARTICULATES ON INDUSTRY EXPANSION 66
Materials Mix 66
Benefits to the Industry 66
TABLE 18 BENEFITS OF ADDED MATERIALS TO THE POWDER METALLURGY
INDUSTRY 67
Make or Outsource Materials 67
Component Manufacture Modifications 68
ADVANCES IN MATERIALS AND PRODUCTION TECHNOLOGY 68
Other Injection-Molding Processes 68
ADVANCED CERAMIC POWDERS 68
Powder Types 69
TABLE 19 COMMONLY USED ADVANCED CERAMIC MATERIALS 69
Powder-Synthesis Techniques 70
NANO-CERAMIC POWDERS 70
Nanocomposite Ceramic Powder 70
Nanoceramic Applications 71
TABLE 20 COMMERCIAL APPLICATIONS FOR CERAMIC NANOPOWDERS 71
CONCLUSION 71
PATENT ANALYSIS 72
PATENTS BY SUBJECT MATTER 72
TABLE 21 PATENTS BY AREA OF POWDER METALLURGY TECHNOLOGY,JANUARY
2008-NOVEMBER 2015 (NO./%) 72
PATENTS BY REGION 73
TABLE 22 POWDER METALLURGY PATENTS BY REGION,JANUARY 2008-NOVEMBER
2015 (NO/%) 73
PATENTS BY COMPANIES 74
TABLE 23 COMPANIES WITH TWO OR MORE PATENTS, JANUARY 2008-NOVEMBER
2015 (NO/%) 74
SAMPLE ABSTRACTS 75
Method of Making a Nanomatrix Powder Metal Compact 75
Powder Metal Forging and method and Apparatus of Manufacture 75
Method of Using a Feedstock Composition for Powder Metallurgy 76
Powder Metallurgical Compositions Containing Organometallic
Lubricants 76
Powder Metallurgy Sputtering Targets and Their Production Methods 76
Making Sinter-Forged, High-Strength Aluminum Parts 77
Method for Making a Forged, Carburized Powder-Metal Part 77
Making a Turbine Blisk 77
Composite Cutting Inserts and Methods of Making the Same 78
CHAPTER 6 COMPETITIVE ENVIRONMENT 80
ECONOMIC TRENDS 80
FIGURE 5 GLOBAL ANNUAL GROWTH RATE OF GROSS DOMESTIC
PRODUCT,2013-2020 (%) 81
MOTOR VEHICLE PRODUCTION 81
TABLE 24 GLOBAL MOTOR VEHICLE PRODUCTION, THROUGH 2020 (MILLION UNITS) 82
INDUSTRY AND TRADE SUPPORT 82
NORTH AMERICA 82
Metal Powder Industries Federation 82
TABLE 25 TRADE ASSOCIATIONS IN THE METAL POWDER INDUSTRIES FEDERATION 83
Pennsylvania State University Center for Innovative Sintered
Products 83
TABLE 26 PENNSYLVANIA STATE UNIVERSITY CENTER FOR INNOVATIVE SINTERED
PRODUCTS COLLABORATING UNIVERSITIES 83
EUROPE 84
European Powder Metallurgy Association 84
TABLE 27 EUROPEAN POWDER METALLURGY ASSOCIATION'S KEY GOALS 84
ASIA-PACIFIC 85
Japan Powder Metallurgy Association 85
Powder Metallurgy Association of India 85
TABLE 28 MAJOR OBJECTIVES OF POWDER METALLURGY ASSOCIATION OF INDIA 85
OTHER REGIONS 86
STANDARDS DEVELOPMENT 86
TEST METHODS 87
POWDER-PRESS SAFETY STANDARDS 87
OTHER STANDARDS 87
CHAPTER 7 POWDER METALLURGY MATERIALS AND PARTS MARKETS 89
FERROUS POWDER METALS AND PARTS 89
FERROUS METAL-POWDER CHARACTERISTICS AND PROPERTIES 89
Metal-Powder Properties 89
Particle Size and Distribution 89
TABLE 29 STANDARD U.S. SIEVE SIZES (MICRONS/INCHES) 89
Apparent or Tap Density 90
Flow Rate 90
TABLE 30 SAMPLE PHYSICAL CHARACTERISTICS OF COMMERCIAL IRON-BASED
POWDERS (G/M3 and SEC/50 G) 91
Ferrous-Powder Types 91
TABLE 31 SAMPLE COMPOSITION OF SINTERED AUTOMOTIVE STEEL STRUCTURAL
COMPONENT MATERIALS 91
FERROUS POWDER METALLURGY APPLICATIONS 92
Automotive Applications 92
TABLE 32 REPRESENTATIVE AUTOMOTIVE APPLICATIONS FOR POWDER
METALLURGY PARTS 92
Ferrous Structural Automotive Parts 93
Engine Connecting Rods 93
Engine Main-Bearing Caps 93
Camshaft Lobes 94
Exhaust-System Components 94
Bearings, Gears and Sprockets 94
Transmission Components 95
Torque Converter Turbine Hubs 96
Valve Guides and Valve Seat Inserts 96
Steering Systems 96
Braking Systems 96
Ferrous Self-Lubricating Bearings 96
Ferrous Magnetic Parts 97
Ferrous Friction Materials 97
Advantages of Powder Metallurgies in Automotive Applications 98
TABLE 33 ADVANTAGES OF POWDER METALLURGIES IN AUTOMOTIVE
APPLICATIONS 98
Non-Automotive Applications of Ferrous-Powder Metallurgies 98
MARKET ANALYSIS 99
Iron and Steel Powders 99
TABLE 34 GLOBAL SHIPMENTS OF IRON AND STEEL POWDERS AND PARTS,
THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 99
FIGURE 6 GLOBAL SHIPMENTS OF IRON AND STEEL POWDERS AND PARTS,
2014-2020 ($ MILLIONS) 99
Volume Projections 100
TABLE 35 GLOBAL SHIPMENT TRENDS FOR MOTOR VEHICLES AND IRON AND
STEEL POWDERS, 2007-2014 (MILLION VEHICLES/TONS) 100
Price Considerations 101
STAINLESS STEEL POWDERS 101
Characteristics and Properties 101
Applications 102
TABLE 36 MAJOR APPLICATIONS FOR STAINLESS STEEL POWDERS 102
Market Analysis 102
TABLE 37 GLOBAL SHIPMENTS OF STAINLESS STEEL POWDERS AND
PARTS,THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 103
FIGURE 7 GLOBAL SHIPMENTS OF STAINLESS STEEL POWDERS AND
PARTS,2014-2020 ($ MILLIONS) 103
ALUMINUM POWDERS AND PARTS 103
ALUMINUM POWDER AND PARTS PROPERTIES 104
Advantages of Aluminum Powder Metallurgy 104
TABLE 38 ADVANTAGES OF ALUMINUM POWDER METALLURGY 104
Search for Weight Reduction 104
Density: A Positive Factor 105
ALUMINUM POWDER APPLICATIONS 105
Automotive Applications 105
Cam-Shaft Bearing Caps 105
Aerospace Applications 106
Metal Matrix Composites 106
TABLE 39 METAL MATRIX COMPOSITE MANUFACTURING METHODS 106
Thermal Management Applications 107
Other Applications 107
ALUMINUM POWDER AND PARTS MARKET ASSESSMENT 107
TABLE 40 GLOBAL SHIPMENTS OF ALUMINUM POWDER AND PARTS,THROUGH
2020 (MILLION POUNDS/$ MILLIONS) 108
FIGURE 8 GLOBAL SHIPMENTS OF ALUMINUM POWDERS AND PARTS,2014-2020 ($
MILLIONS) 108
Volume Projections 108
Price Considerations 109
COPPER POWDERS AND COPPER-BASED PARTS 109
COPPER POWDER PROPERTIES 109
TABLE 41 PRIMARY ADVANTAGES OF COPPER POWDER 110
COPPER POWDER METALLURGY APPLICATIONS 110
Hybrid Vehicles 110
Bronze Bearings, Filters and Related Parts 110
High-Conductivity Structural Parts 111
Other Copper Powder Metallurgy Applications 111
Friction Materials 111
COPPER POWDER AND PARTS MARKET ASSESSMENT 112
TABLE 42 GLOBAL COPPER POWDER AND PARTS SHIPMENTS, THROUGH 2020
(MILLION POUNDS/$ MILLION) 112
FIGURE 9 GLOBAL COPPER POWDERS AND PARTS SHIPMENTS,2014-2020 ($
MILLIONS) 112
Volume Projections 113
Price Considerations 113
NICKEL-BASED POWDERS AND PARTS 114
NICKEL-POWDER PROPERTIES 114
TABLE 43 NICKEL-POWDER PROPERTIES 114
NICKEL-POWDER APPLICATIONS 115
TABLE 44 NICKEL-POWDER APPLICATIONS BY POWDER TYPE 115
NICKEL POWDER AND PARTS MARKET ASSESSMENT 116
TABLE 45 GLOBAL NICKEL POWDER AND PART SHIPMENTS, THROUGH 2020
(MILLION POUNDS/$ MILLIONS) 116
FIGURE 10 GLOBAL NICKEL POWDER AND PART SHIPMENTS,2014-2020 ($
MILLIONS) 116
Volume Projections 117
Price Considerations 117
MARKETS FOR TUNGSTEN AND MOLYBDENUM POWDERS AND ALLOY PM PARTS 118
PROPERTIES 118
Tungsten 118
Molybdenum 118
APPLICATIONS 118
Tungsten 118
Molybdenum 119
TUNGSTEN AND MOLYBDENUM POWDER AND PARTS MARKET
ASSESSMENT 119
TABLE 46 GLOBAL TUNGSTEN AND MOLYBDENUM POWDER AND PARTS
SHIPMENTS, THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 120
FIGURE 11 GLOBAL TUNGSTEN AND MOLYBDENUM POWDER AND PARTS
SHIPMENTS,2014-2020 ($ MILLIONS) 120
Volume Projections 121
Price Considerations 121
TIN POWDERS AND TIN-BASE PARTS 122
PROPERTIES 122
APPLICATIONS 122
TABLE 47 MAJOR TIN POWDER APPLICATIONS 122
TIN POWDER AND PARTS MARKET ASSESSMENT 123
TABLE 48 GLOBAL TIN POWDER AND PARTS SHIPMENTS, THROUGH 2020 (MILLION
POUNDS/$ MILLIONS) 123
FIGURE 12 GLOBAL SHIPMENTS OF TIN POWDERS AND PARTS,2014-2020 ($
MILLIONS) 123
Volume Projections 124
Price Considerations 124
PARTICULATES AND OTHER ADVANCED MATERIALS 124
PROPERTIES 125
Special Alloy Materials 125
TABLE 49 ALLOYS WITH HIGH-CARBON CONTENT (%) 125
Ceramic Powders 125
Nanoceramic Powders 126
TABLE 50 METHODS FOR MAKING NANOPOWDERS 126
APPLICATIONS 127
TABLE 51 PARTICULATE AND OTHER ADVANCED MATERIAL APPLICATIONS 128
PARTICULATE AND OTHER ADVANCED-MATERIAL MARKET ASSESSMENT 128
TABLE 52 GLOBAL PARTICULATE AND OTHER ADVANCED POWDER AND PARTS
SHIPMENTS, THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 128
FIGURE 13 GLOBAL PARTICULATE AND OTHER ADVANCED POWDER AND PARTS
SHIPMENTS,2014-2020 ($ MILLIONS) 129
Volume Projections 129
FIGURE 14 MARKET SHARES OF PARTICULATES AND SPECIAL POWDERS, 2014 (%) 130
Pricing Considerations 131
GLOBAL POWDER AND PARTS GROWTH 131
POWDER METALLURGY MATERIALS 131
Volume 131
TABLE 53 GLOBAL POWDER METAL SHIPMENT VOLUME AND MARKET SHARE BY
MATERIAL TYPE,THROUGH 2020 (MILLION POUNDS/% MARKET SHARE) 131
FIGURE 15 GLOBAL SHIPMENT VOLUME OF POWDER MATERIALS BY MATERIAL
TYPE,2014-2020 (MILLION POUNDS) 132
FIGURE 16 GLOBAL MARKET SHARE FOR POWDER METAL SHIPMENTS BY MATERIAL
TYPE,2014-2020 (%) 132
Value 133
TABLE 54 GLOBAL POWDER METALLURGY VOLUME AND MARKET SHARE BY
MATERIAL TYPE, THROUGH 2020 ($ MILLIONS AND %) 133
FIGURE 17 GLOBAL POWDER METALLURGY SHIPMENT VOLUME BY MATERIAL
TYPE,2014-2020 ($ MILLIONS) 133
FIGURE 18 GLOBAL MARKET SHARE FOR POWDER METALLURGY SHIPMENTS BY
MATERIAL TYPE,2014-2020 (%) 134
PARTS 134
Parts Shipments by Powder Metal Type 134
TABLE 55 GLOBAL POWDER METALLURGY PARTS MARKET AND SHIPMENTS,
2014-2020 (MILLION POUNDS/$ MILLIONS) 135
Parts Shipments by End Use Type 135
TABLE 56 GLOBAL POWDER METALLURGY COMPONENT SHIPMENTS AND SHARE BY
MARKET TYPE, 2014-2020 ($ MILLIONS/% MARKET SHARE) 135
FIGURE 19 GLOBAL POWDER METALLURGY COMPONENT SHIPMENTS BY MARKET
TYPE,2014-2020 ($ MILLIONS) 136
FIGURE 20 GLOBAL POWDER METALLURGY COMPONENT SHARE BY MARKET
TYPE,2014-2020 (%) 136

LIST OF TABLES

SUMMARY TABLE GLOBAL POWDER METALLURGY PARTS AND POWDER
SHIPMENTS,THROUGH 2020 (MILLION LBS/$ MILLIONS) 6
TABLE 1 OVERVIEW OF THE POWDER METALLURGY PROCESS 10
TABLE 2 BASIC POWDER MANUFACTURING PROCESSES 11
TABLE 3 END-PRODUCTS THAT USE POWDER METALLURGY PARTS 12
TABLE 4 GLOBAL POWDER METALLURGY INDUSTRY STRUCTURE,2015 14
TABLE 5 KEY COMPANIES IN THE GLOBAL POWDER METALLURGY INDUSTRY 15
TABLE 6 GLOBAL SHARE OF POWDER METALLURGY MANUFACTURING BY
REGION,2014-2020 (%) 19
TABLE 7 GLOBAL POWDER METALLURGY CONSUMPTION BY REGION,2014-2020 (%) 21
TABLE 8 POWDER METALLURGY PROCESS 45
TABLE 9 CONTINUOUS-SINTERING FURNACES BY TYPE 47
TABLE 10 BASIC HOT ISOSTATIC PRESSING PROCESS 49
TABLE 11 BASIC COLD ISOSTATIC PRESSING PROCESS 50
TABLE 12 BASIC METAL INJECTION MOLDING PROCESS 52
TABLE 13 WARM COMPACTING PROCESS 54
TABLE 14 METALS USED IN ADDITIVE MANUFACTURING 55
TABLE 15 SECONDARY OPERATIONS 58
TABLE 16 WATER AND GAS ATOMIZATION PROCESS COMPARISONS 62
TABLE 17 PARTICULATE MATERIALS 66
TABLE 18 BENEFITS OF ADDED MATERIALS TO THE POWDER METALLURGY
INDUSTRY 67
TABLE 19 COMMONLY USED ADVANCED CERAMIC MATERIALS 69
TABLE 20 COMMERCIAL APPLICATIONS FOR CERAMIC NANOPOWDERS 71
TABLE 21 PATENTS BY AREA OF POWDER METALLURGY TECHNOLOGY,JANUARY
2008-NOVEMBER 2015 (NO./%) 72
TABLE 22 POWDER METALLURGY PATENTS BY REGION,JANUARY 2008-NOVEMBER
2015 (NO/%) 73
TABLE 23 COMPANIES WITH TWO OR MORE PATENTS, JANUARY 2008-NOVEMBER
2015 (NO/%) 74
TABLE 24 GLOBAL MOTOR VEHICLE PRODUCTION, THROUGH 2020 (MILLION UNITS) 82
TABLE 25 TRADE ASSOCIATIONS IN THE METAL POWDER INDUSTRIES FEDERATION 83
TABLE 26 PENNSYLVANIA STATE UNIVERSITY CENTER FOR INNOVATIVE SINTERED
PRODUCTS COLLABORATING UNIVERSITIES 83
TABLE 27 EUROPEAN POWDER METALLURGY ASSOCIATION'S KEY GOALS 84
TABLE 28 MAJOR OBJECTIVES OF POWDER METALLURGY ASSOCIATION OF INDIA 85
TABLE 29 STANDARD U.S. SIEVE SIZES (MICRONS/INCHES) 89
TABLE 30 SAMPLE PHYSICAL CHARACTERISTICS OF COMMERCIAL IRON-BASED
POWDERS (G/M3 AND SEC/50 G) 91
TABLE 31 SAMPLE COMPOSITION OF SINTERED AUTOMOTIVE STEEL STRUCTURAL
COMPONENT MATERIALS 91
TABLE 32 REPRESENTATIVE AUTOMOTIVE APPLICATIONS FOR POWDER
METALLURGY PARTS 92
TABLE 33 ADVANTAGES OF POWDER METALLURGIES IN AUTOMOTIVE APPLICATIONS 98
TABLE 34 GLOBAL SHIPMENTS OF IRON AND STEEL POWDERS AND PARTS,
THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 99
TABLE 35 GLOBAL SHIPMENT TRENDS FOR MOTOR VEHICLES AND IRON AND STEEL
POWDERS, 2007-2014 (MILLION VEHICLES/TONS) 100
TABLE 36 MAJOR APPLICATIONS FOR STAINLESS STEEL POWDERS 102
TABLE 37 GLOBAL SHIPMENTS OF STAINLESS STEEL POWDERS AND
PARTS,THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 103
TABLE 38 ADVANTAGES OF ALUMINUM POWDER METALLURGY 104
TABLE 39 METAL MATRIX COMPOSITE MANUFACTURING METHODS 106
TABLE 40 GLOBAL SHIPMENTS OF ALUMINUM POWDER AND PARTS,THROUGH 2020
(MILLION POUNDS/$ MILLIONS) 108
TABLE 41 PRIMARY ADVANTAGES OF COPPER POWDER 110
TABLE 42 GLOBAL COPPER POWDER AND PARTS SHIPMENTS, THROUGH 2020
(MILLION POUNDS/$ MILLION) 112
TABLE 43 NICKEL-POWDER PROPERTIES 114
TABLE 44 NICKEL-POWDER APPLICATIONS BY POWDER TYPE 115
TABLE 45 GLOBAL NICKEL POWDER AND PART SHIPMENTS, THROUGH 2020
(MILLION POUNDS/$ MILLIONS) 116
TABLE 46 GLOBAL TUNGSTEN AND MOLYBDENUM POWDER AND PARTS SHIPMENTS,
THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 120
TABLE 47 MAJOR TIN POWDER APPLICATIONS 122
TABLE 48 GLOBAL TIN POWDER AND PARTS SHIPMENTS, THROUGH 2020 (MILLION
POUNDS/$ MILLIONS) 123
TABLE 49 ALLOYS WITH HIGH-CARBON CONTENT (%) 125
TABLE 50 METHODS FOR MAKING NANOPOWDERS 126
TABLE 51 PARTICULATE AND OTHER ADVANCED MATERIAL APPLICATIONS 128
TABLE 52 GLOBAL PARTICULATE AND OTHER ADVANCED POWDER AND PARTS
SHIPMENTS, THROUGH 2020 (MILLION POUNDS/$ MILLIONS) 128
TABLE 53 GLOBAL POWDER METAL SHIPMENT VOLUME AND MARKET SHARE BY
MATERIAL TYPE,THROUGH 2020 (MILLION POUNDS/% MARKET SHARE) 131
TABLE 54 GLOBAL POWDER METALLURGY VOLUME AND MARKET SHARE BY
MATERIAL TYPE, THROUGH 2020 ($ MILLIONS AND %) 133
TABLE 55 GLOBAL POWDER METALLURGY PARTS MARKET AND SHIPMENTS,
2014-2020 (MILLION POUNDS/$ MILLIONS) 135
TABLE 56 GLOBAL POWDER METALLURGY COMPONENT SHIPMENTS AND SHARE BY
MARKET TYPE, 2014-2020 ($ MILLIONS/% MARKET SHARE) 135

LIST OF FIGURES

FIGURE TITLE PAGE NO.
SUMMARY FIGURE GLOBAL POWDER METALLURGY PARTS AND POWDER
SHIPMENTS,2014-2020 ($ MILLIONS) 7
FIGURE 1 GLOBAL SHARE OF POWDER METALLURGY MANUFACTURING BY
REGION,2014-2020 (%) 20
FIGURE 2 GLOBAL POWDER METALLURGY CONSUMPTION BY REGION,2014-2020 (%) 21
FIGURE 3 LEADING POWDER METALLURGY COMPONENT MANUFACTURERS,2014 (%) 22
FIGURE 4 LEADING METALLURGY POWDER MANUFACTURERS,2014 (%) 22
FIGURE 5 GLOBAL ANNUAL GROWTH RATE OF GROSS DOMESTIC
PRODUCT,2013-2020 (%) 81
FIGURE 6 GLOBAL SHIPMENTS OF IRON AND STEEL POWDERS AND PARTS,
2014-2020 ($ MILLIONS) 99
FIGURE 7 GLOBAL SHIPMENTS OF STAINLESS STEEL POWDERS AND
PARTS,2014-2020 ($ MILLIONS) 103
FIGURE 8 GLOBAL SHIPMENTS OF ALUMINUM POWDERS AND PARTS,2014-2020 ($
MILLIONS) 108
FIGURE 9 GLOBAL COPPER POWDERS AND PARTS SHIPMENTS,2014-2020 ($
MILLIONS) 112
FIGURE 10 GLOBAL NICKEL POWDER AND PART SHIPMENTS,2014-2020 ($ MILLIONS) 116
FIGURE 11 GLOBAL TUNGSTEN AND MOLYBDENUM POWDER AND PARTS
SHIPMENTS,2014-2020 ($ MILLIONS) 120
FIGURE 12 GLOBAL SHIPMENTS OF TIN POWDERS AND PARTS,2014-2020 ($
MILLIONS) 123
FIGURE 13 GLOBAL PARTICULATE AND OTHER ADVANCED POWDER AND PARTS
SHIPMENTS,2014-2020 ($ MILLIONS) 129
FIGURE 14 MARKET SHARES OF PARTICULATES AND SPECIAL POWDERS, 2014 (%) 130
FIGURE 15 GLOBAL SHIPMENT VOLUME OF POWDER MATERIALS BY MATERIAL
TYPE,2014-2020 (MILLION POUNDS) 132
FIGURE 16 GLOBAL MARKET SHARE FOR POWDER METAL SHIPMENTS BY MATERIAL
TYPE,2014-2020 (%) 132
FIGURE 17 GLOBAL POWDER METALLURGY SHIPMENT VOLUME BY MATERIAL
TYPE,2014-2020 ($ MILLIONS) 133
FIGURE 18 GLOBAL MARKET SHARE FOR POWDER METALLURGY SHIPMENTS BY
MATERIAL TYPE,2014-2020 (%) 134
FIGURE 19 GLOBAL POWDER METALLURGY COMPONENT SHIPMENTS BY MARKET
TYPE,2014-2020 ($ MILLIONS) 136
FIGURE 20 GLOBAL POWDER METALLURGY COMPONENT SHARE BY MARKET
TYPE,2014-2020 (%) 136

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This report analyzes the worldwide markets for High Performance Alloys in Metric Tons by the following Alloying Metal: Nickel Alloys, Cobalt Alloys, and Titanium Alloys. The market is further analyzed ...

Metal and Ceramic Injection Molding, BCC Research

Metal and Ceramic Injection Molding, BCC Research

  • $ 6650
  • Industry report
  • April 2016
  • by BCC Research

This BCC Research report studies the the current growth, potential future growth and the changes that are taking place in the MIM market. Since CIM is a related market, this industry is also covered in ...


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Aluminium and Tungsten Industry in India

  • October 2016
    8 pages
  • Aluminium  

    Tungsten  

  • India  

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Gold Industry

  • October 2016
    28 pages
  • Gold  

    Precious Metal  

  • Singapore  

    China  

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Global Metals Forecast

  • September 2016
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