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Â鶹ԭ´´ > Powder Metallurgy - Global Â鶹ԭ´´ Outlook (2017-2026)

Powder Metallurgy - Global Â鶹ԭ´´ Outlook (2017-2026)

Publication ID: 
SMRC1018052
Publication Date: 
October 1, 2018
Pages: 
174
Publisher: 
Stratistics MRC
Countries: 
Global [1]
USD 4,150.00

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Chemicals [3]
Description: 

Global Powder Metallurgy Â鶹ԭ´´ is accounted for $ 6,000.26 million in 2017 and is expected to reach $ 11120.26 million by 2026 growing at a CAGR of 7.1% during the forecast period. Increase in demand for powder metal-based automotive components and growing demand for fuel efficient vehicles are some of the primary driving factors for the powder metallurgy market globally. However, limited use in the production of three-dimensional products and high capital costs of powder metallurgy processing equipment are restraining the market.

Powder metallurgy is a quickly developing technology that deals with the manufacturing of materials or components from ferrous and non-ferrous metal powders. It is used in different applications across numerous industries worldwide. It is used to manufacture filters that need superior strength and shock resistance. Moreover, it is used for manufacturing cutting tool inserts and machinery parts. It is a preferred manufacturing process for different structured parts owing to the cost efficiency and uniqueness of the product. It finds application in business machines, hardware, household appliances, industrial motors, and hand tools.

Amongst end-user, electrical & electronics accounted for the largest market share in the global powder metallurgy market due to cutting edge technology and augment in the use of powdered metals in electronic devices such as electric car batteries and sintered parts for different electronic gadgets.

By geography, North America dominates the global market during the forecast period. In this region, the growth of the market is influenced due to increasing automotive command for powder metallurgy in the United States (US) for aerospace industry.

Some of the key players in Powder Metallurgy market include Sumitomo Electric Company Ltd., Fine Sinter Co., Ltd., Federal-Mogul Corporation, Voestalpine AG, Sandvik AB, Allegheny Technologies Incorporated, Dorst Technologies, Borgwarner Inc, H.C. Starck, GKN PLC, Hitachi Chemical Company Ltd, Carpenter Technology Corporation, Chicago Powder Metal Products, Hoganas AB, SMC Powder Metallurgy Inc., ACuPowder International, LLC and OBE GMBH.

Materials Covered:
• Tin Powders
• Copper
• Tungsten and Molybdenum
• Ferrous
• Nickel
• Iron
• Aluminum
• Stainless Steel
• Non-Ferrous
• Other Material

End-users Covered:
• Aerospace
• Electrical & Electronics
• Industrial Motors
• Business Machines
• Automotive
• Healthcare Sector
• Oil and Gas Industry
• Other End-user

Regions Covered:
• North America
o US
o Canada
o Mexico
• Europe
o Germany
o France
o Italy
o UK
o Spain
o Rest of Europe
• Asia Pacific
o Japan
o China
o India
o Australia
o New Zealand
o South Korea
o Rest of Asia Pacific
• South America
o Argentina
o Brazil
o Chile
o Rest of South America
• Middle East & Africa
o Saudi Arabia
o UAE
o Qatar
o South Africa
o Rest of Middle East & Africa

What our report offers:
- Â鶹ԭ´´ share assessments for the regional and country level segments
- Â鶹ԭ´´ share analysis of the top industry players
- Strategic recommendations for the new entrants
- Â鶹ԭ´´ forecasts for a minimum of 9 years of all the mentioned segments, sub segments and the regional markets
- Â鶹ԭ´´ Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations)
- Strategic recommendations in key business segments based on the market estimations
- Competitive landscaping mapping the key common trends
- Company profiling with detailed strategies, financials, and recent developments
- Supply chain trends mapping the latest technological advancements

Table Of Contents: 

1 Executive Summary

2 Preface
2.1 Abstract
2.2 Stake Holders
2.3 Research Scope
2.4 Research Methodology
2.4.1 Data Mining
2.4.2 Data Analysis
2.4.3 Data Validation
2.4.4 Research Approach
2.5 Research Sources
2.5.1 Primary Research Sources
2.5.2 Secondary Research Sources
2.5.3 Assumptions

3 Â鶹ԭ´´ Trend Analysis
3.1 Introduction
3.2 Drivers
3.3 Restraints
3.4 Opportunities
3.5 Threats
3.6 End User Analysis
3.7 Emerging Â鶹ԭ´´s
3.8 Futuristic Â鶹ԭ´´ Scenario

4 Porters Five Force Analysis
4.1 Bargaining power of suppliers
4.2 Bargaining power of buyers
4.3 Threat of substitutes
4.4 Threat of new entrants
4.5 Competitive rivalry

5 Global Powder Metallurgy Â鶹ԭ´´, By Material
5.1 Introduction
5.2 Tin Powders
5.3 Copper
5.4 Tungsten and Molybdenum
5.5 Ferrous
5.6 Nickel
5.7 Iron
5.8 Aluminum
5.9 Stainless Steel
5.10 Non-Ferrous
5.11 Other Material
5.11.1 Metal Matrix Composites
5.11.2 Cemented Carbides
5.11.3 Nanopowders

6 Global Powder Metallurgy Â鶹ԭ´´, By End-user
6.1 Introduction
6.2 Aerospace
6.3 Electrical & Electronics
6.4 Industrial Motors
6.5 Business Machines
6.6 Automotive
6.7 Healthcare Sector
6.8 Oil and Gas Industry
6.9 Other End-users
6.9.1 Magnets
6.9.2 Filters
6.9.3 Energy

7 Global Powder Metallurgy Â鶹ԭ´´, By Geography
7.1 Introduction
7.2 North America
7.2.1 US
7.2.2 Canada
7.2.3 Mexico
7.3 Europe
7.3.1 Germany
7.3.2 UK
7.3.3 Italy
7.3.4 France
7.3.5 Spain
7.3.6 Rest of Europe
7.4 Asia Pacific
7.4.1 Japan
7.4.2 China
7.4.3 India
7.4.4 Australia
7.4.5 New Zealand
7.4.6 South Korea
7.4.7 Rest of Asia Pacific
7.5 South America
7.5.1 Argentina
7.5.2 Brazil
7.5.3 Chile
7.5.4 Rest of South America
7.6 Middle East & Africa
7.6.1 Saudi Arabia
7.6.2 UAE
7.6.3 Qatar
7.6.4 South Africa
7.6.5 Rest of Middle East & Africa

8 Key Developments
8.1 Agreements, Partnerships, Collaborations and Joint Ventures
8.2 Acquisitions & Mergers
8.3 New Product Launch
8.4 Expansions
8.5 Other Key Strategies

9 Company Profiling
9.1 Sumitomo Electric Company Ltd.
9.2 Fine Sinter Co., Ltd.
9.3 Federal-Mogul Corporation
9.4 Voestalpine AG
9.5 Sandvik AB
9.6 Allegheny Technologies Incorporated
9.7 Dorst Technologies
9.8 Borgwarner Inc
9.9 H.C. Starck
9.10 GKN PLC
9.11 Hitachi Chemical Company Ltd
9.12 Chicago Powder Metal Products
9.13 Hoganas AB
9.14 Carpenter Technology Corporation
9.15 SMC Powder Metallurgy Inc.
9.16 ACuPowder International, LLC
9.17 OBE GMBH

List of Tables
Table 1 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Region (2016-2026) (US $MN)
Table 2 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Material (2016-2026) (US $MN)
Table 3 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Tin Powders (2016-2026) (US $MN)
Table 4 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Copper (2016-2026) (US $MN)
Table 5 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Tungsten and Molybdenum (2016-2026) (US $MN)
Table 6 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Ferrous (2016-2026) (US $MN)
Table 7 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Nickel (2016-2026) (US $MN)
Table 8 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Iron (2016-2026) (US $MN)
Table 9 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Aluminum (2016-2026) (US $MN)
Table 10 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Stainless Steel (2016-2026) (US $MN)
Table 11 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Non-Ferrous (2016-2026) (US $MN)
Table 12 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Other Material (2016-2026) (US $MN)
Table 13 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Metal Matrix Composites (2016-2026) (US $MN)
Table 14 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Cemented Carbides (2016-2026) (US $MN)
Table 15 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Nanopowders (2016-2026) (US $MN)
Table 16 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By End-user (2016-2026) (US $MN)
Table 17 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Aerospace (2016-2026) (US $MN)
Table 18 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Electrical & Electronics (2016-2026) (US $MN)
Table 19 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Industrial Motors (2016-2026) (US $MN)
Table 20 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Business Machines (2016-2026) (US $MN)
Table 21 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Automotive (2016-2026) (US $MN)
Table 22 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Healthcare Sector (2016-2026) (US $MN)
Table 23 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Oil and Gas Industry (2016-2026) (US $MN)
Table 24 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Other End-users (2016-2026) (US $MN)
Table 25 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Magnets (2016-2026) (US $MN)
Table 26 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Filters (2016-2026) (US $MN)
Table 27 Global Powder Metallurgy Â鶹ԭ´´ Outlook, By Energy (2016-2026) (US $MN)
Table 28 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Country (2016-2026) (US $MN)
Table 29 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Material (2016-2026) (US $MN)
Table 30 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Tin Powders (2016-2026) (US $MN)
Table 31 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Copper (2016-2026) (US $MN)
Table 32 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Tungsten and Molybdenum (2016-2026) (US $MN)
Table 33 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Ferrous (2016-2026) (US $MN)
Table 34 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Nickel (2016-2026) (US $MN)
Table 35 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Iron (2016-2026) (US $MN)
Table 36 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Aluminum (2016-2026) (US $MN)
Table 37 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Stainless Steel (2016-2026) (US $MN)
Table 38 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Non-Ferrous (2016-2026) (US $MN)
Table 39 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Other Material (2016-2026) (US $MN)
Table 40 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Metal Matrix Composites (2016-2026) (US $MN)
Table 41 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Cemented Carbides (2016-2026) (US $MN)
Table 42 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Nanopowders (2016-2026) (US $MN)
Table 43 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By End-user (2016-2026) (US $MN)
Table 44 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Aerospace (2016-2026) (US $MN)
Table 45 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Electrical & Electronics (2016-2026) (US $MN)
Table 46 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Industrial Motors (2016-2026) (US $MN)
Table 47 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Business Machines (2016-2026) (US $MN)
Table 48 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Automotive (2016-2026) (US $MN)
Table 49 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Healthcare Sector (2016-2026) (US $MN)
Table 50 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Oil and Gas Industry (2016-2026) (US $MN)
Table 51 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Other End-users (2016-2026) (US $MN)
Table 52 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Magnets (2016-2026) (US $MN)
Table 53 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Filters (2016-2026) (US $MN)
Table 54 North America Powder Metallurgy Â鶹ԭ´´ Outlook, By Energy (2016-2026) (US $MN)
Table 55 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Country (2016-2026) (US $MN)
Table 56 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Material (2016-2026) (US $MN)
Table 57 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Tin Powders (2016-2026) (US $MN)
Table 58 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Copper (2016-2026) (US $MN)
Table 59 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Tungsten and Molybdenum (2016-2026) (US $MN)
Table 60 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Ferrous (2016-2026) (US $MN)
Table 61 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Nickel (2016-2026) (US $MN)
Table 62 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Iron (2016-2026) (US $MN)
Table 63 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Aluminum (2016-2026) (US $MN)
Table 64 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Stainless Steel (2016-2026) (US $MN)
Table 65 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Non-Ferrous (2016-2026) (US $MN)
Table 66 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Other Material (2016-2026) (US $MN)
Table 67 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Metal Matrix Composites (2016-2026) (US $MN)
Table 68 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Cemented Carbides (2016-2026) (US $MN)
Table 69 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Nanopowders (2016-2026) (US $MN)
Table 70 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By End-user (2016-2026) (US $MN)
Table 71 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Aerospace (2016-2026) (US $MN)
Table 72 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Electrical & Electronics (2016-2026) (US $MN)
Table 73 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Industrial Motors (2016-2026) (US $MN)
Table 74 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Business Machines (2016-2026) (US $MN)
Table 75 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Automotive (2016-2026) (US $MN)
Table 76 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Healthcare Sector (2016-2026) (US $MN)
Table 77 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Oil and Gas Industry (2016-2026) (US $MN)
Table 78 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Other End-users (2016-2026) (US $MN)
Table 79 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Magnets (2016-2026) (US $MN)
Table 80 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Filters (2016-2026) (US $MN)
Table 81 Europe Powder Metallurgy Â鶹ԭ´´ Outlook, By Energy (2016-2026) (US $MN)
Table 82 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Country (2016-2026) (US $MN)
Table 83 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Material (2016-2026) (US $MN)
Table 84 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Tin Powders (2016-2026) (US $MN)
Table 85 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Copper (2016-2026) (US $MN)
Table 86 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Tungsten and Molybdenum (2016-2026) (US $MN)
Table 87 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Ferrous (2016-2026) (US $MN)
Table 88 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Nickel (2016-2026) (US $MN)
Table 89 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Iron (2016-2026) (US $MN)
Table 90 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Aluminum (2016-2026) (US $MN)
Table 91 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Stainless Steel (2016-2026) (US $MN)
Table 92 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Non-Ferrous (2016-2026) (US $MN)
Table 93 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Other Material (2016-2026) (US $MN)
Table 94 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Metal Matrix Composites (2016-2026) (US $MN)
Table 95 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Cemented Carbides (2016-2026) (US $MN)
Table 96 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Nanopowders (2016-2026) (US $MN)
Table 97 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By End-user (2016-2026) (US $MN)
Table 98 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Aerospace (2016-2026) (US $MN)
Table 99 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Electrical & Electronics (2016-2026) (US $MN)
Table 100 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Industrial Motors (2016-2026) (US $MN)
Table 101 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Business Machines (2016-2026) (US $MN)
Table 102 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Automotive (2016-2026) (US $MN)
Table 103 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Healthcare Sector (2016-2026) (US $MN)
Table 104 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Oil and Gas Industry (2016-2026) (US $MN)
Table 105 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Other End-users (2016-2026) (US $MN)
Table 106 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Magnets (2016-2026) (US $MN)
Table 107 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Filters (2016-2026) (US $MN)
Table 108 Asia Pacific Powder Metallurgy Â鶹ԭ´´ Outlook, By Energy (2016-2026) (US $MN)
Table 109 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Country (2016-2026) (US $MN)
Table 110 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Material (2016-2026) (US $MN)
Table 111 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Tin Powders (2016-2026) (US $MN)
Table 112 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Copper (2016-2026) (US $MN)
Table 113 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Tungsten and Molybdenum (2016-2026) (US $MN)
Table 114 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Ferrous (2016-2026) (US $MN)
Table 115 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Nickel (2016-2026) (US $MN)
Table 116 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Iron (2016-2026) (US $MN)
Table 117 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Aluminum (2016-2026) (US $MN)
Table 118 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Stainless Steel (2016-2026) (US $MN)
Table 119 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Non-Ferrous (2016-2026) (US $MN)
Table 120 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Other Material (2016-2026) (US $MN)
Table 121 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Metal Matrix Composites (2016-2026) (US $MN)
Table 122 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Cemented Carbides (2016-2026) (US $MN)
Table 123 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Nanopowders (2016-2026) (US $MN)
Table 124 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By End-user (2016-2026) (US $MN)
Table 125 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Aerospace (2016-2026) (US $MN)
Table 126 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Electrical & Electronics (2016-2026) (US $MN)
Table 127 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Industrial Motors (2016-2026) (US $MN)
Table 128 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Business Machines (2016-2026) (US $MN)
Table 129 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Automotive (2016-2026) (US $MN)
Table 130 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Healthcare Sector (2016-2026) (US $MN)
Table 131 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Oil and Gas Industry (2016-2026) (US $MN)
Table 132 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Other End-users (2016-2026) (US $MN)
Table 133 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Magnets (2016-2026) (US $MN)
Table 134 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Filters (2016-2026) (US $MN)
Table 135 South America Powder Metallurgy Â鶹ԭ´´ Outlook, By Energy (2016-2026) (US $MN)
Table 136 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Country (2016-2026) (US $MN)
Table 137 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Material (2016-2026) (US $MN)
Table 138 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Tin Powders (2016-2026) (US $MN)
Table 139 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Copper (2016-2026) (US $MN)
Table 140 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Tungsten and Molybdenum (2016-2026) (US $MN)
Table 141 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Ferrous (2016-2026) (US $MN)
Table 142 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Nickel (2016-2026) (US $MN)
Table 143 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Iron (2016-2026) (US $MN)
Table 144 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Aluminum (2016-2026) (US $MN)
Table 145 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Stainless Steel (2016-2026) (US $MN)
Table 146 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Non-Ferrous (2016-2026) (US $MN)
Table 147 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Other Material (2016-2026) (US $MN)
Table 148 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Metal Matrix Composites (2016-2026) (US $MN)
Table 149 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Cemented Carbides (2016-2026) (US $MN)
Table 150 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Nanopowders (2016-2026) (US $MN)
Table 151 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By End-user (2016-2026) (US $MN)
Table 152 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Aerospace (2016-2026) (US $MN)
Table 153 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Electrical & Electronics (2016-2026) (US $MN)
Table 154 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Industrial Motors (2016-2026) (US $MN)
Table 155 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Business Machines (2016-2026) (US $MN)
Table 156 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Automotive (2016-2026) (US $MN)
Table 157 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Healthcare Sector (2016-2026) (US $MN)
Table 158 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Oil and Gas Industry (2016-2026) (US $MN)
Table 159 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Other End-users (2016-2026) (US $MN)
Table 160 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Magnets (2016-2026) (US $MN)
Table 161 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Filters (2016-2026) (US $MN)
Table 162 Middle East & Africa Powder Metallurgy Â鶹ԭ´´ Outlook, By Energy (2016-2026) (US $MN)

Companies Mentioned: 

Sumitomo Electric Company Ltd.
Fine Sinter Co., Ltd.
Federal-Mogul Corporation
Voestalpine AG
Sandvik AB
Allegheny Technologies Incorporated
Dorst Technologies
Borgwarner Inc
H.C. Starck
GKN PLC
Hitachi Chemical Company Ltd
Chicago Powder Metal Products
Hoganas AB
Carpenter Technology Corporation
SMC Powder Metallurgy Inc.
ACuPowder International, LLC
OBE GMBH

License Types: 

Single User License (PDF)

  • This license allows for use of a publication by one person.
  • This person may print out a single copy of the publication.
  • This person can include information given in the publication in presentations and internal reports by providing full copyright credit to the publisher.
  • This person cannot share the publication (or any information contained therein) with any other person or persons.
  • Unless a Enterprise License is purchased, a Single User License must be purchased for every person that wishes to use the publication within the same organization.
  • Customers who infringe these license terms are liable for a Global license fee.

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Site License (PDF)*

  • This license allows for use of a publication by all users within one corporate location, e.g. a regional office.
  • These users may print out a single copy of the publication.
  • These users can include information given in the publication in presentations and internal reports by providing full copyright credit to the publisher.
  • These users cannot share the publication (or any information contained therein) with any other person or persons outside the corporate location for which the publication is purchased.
  • Unless a Enterprise License is purchased, a Site User License must be purchased for every corporate location by an organization that wishes to use the publication within the same organization.
  • Customers who infringe these license terms are liable for a Global license fee.

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Global License (PDF)*

  • This license allows for use of a publication by unlimited users within the purchasing organization e.g. all employees of a single company.
  • Each of these people may use the publication on any computer, and may print out the report, but may not share the publication (or any information contained therein) with any other person or persons outside of the organization.
  • These employees of purchasing organization can include information given in the publication in presentations and internal reports by providing full copyright credit to the publisher.

*If Applicable.

Source URL:/stratistics-mrc/powder-metallurgy-global-market-outlook-2017-2026

Links
[1] /countries/global[2] /reagents[3] /chemicals