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Technology Trends Metal Matrix Composites

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    Report

  • 142 Pages
  • May 2018
  • Region: Global
  • Ingenious e-Brain Solutions
  • ID: 4599623
Metal matrix composites (MMCs) is a composite material consisting of an essential metal reinforcement with a second constituent which may be a different metal or non-metallic material such as ceramic or organic compound. When three components are present, it is called as a hybrid composite.

The key properties offered by MMCs are superior yield strength and tensile strength, high thermal resistance, better conductivity, corrosion, chemical and moisture resistance, and can be used over a wide temperature range.

Owing to the superior properties use of MMCs is inflating in various end-use sectors such as electronics, aerospace, thermal management, defense, marine, ground transportation, and industrial sector. The growing need for lightweight and strong materials in ground transportation and aerospace industry is one of the major drivers for the MMCs market. For example, MMCs have been immensely used for structural tubing in the space shuttle orbiter, propulsion systems for aircraft and tank armors.

The ground transportation industry is projected to grow at a higher rate because of the demand of MMCs in automotive, in engine components, in brake discs, and in rail applications.

The global MMC market is segmented into end-user industries, product types, production technology, and region.

The MMCs market by product type is segmented into aluminum MMC, magnesium MMC, titanium MMC, Copper MMC, and others. The aluminum MMC holds the major market share in terms of value and volume, owing to its better properties and comparatively low production cost.

Due to the growing demand of MMC from these sectors is expected to sustain the demand of MMC in forthcoming years during the forecast.

Major players in MMCs market:
  • 3M (U.S.)

  • Metal Matrix Cast Composites (U.S.)

  • CPS Technologies Corporation (U.S.)

  • Materion Corporation (U.S.)

  • Deutsche Edelstahlwerke GmbH (Germany)

  • GKN Sinter Metals (U.K.)


Major companies have adopted strategies to expand their business by acquiring potential ventures and new product launches and have invested in R&D activities for maintaining their position in the global MMC market.

Key topics covered includes:
  • The global MMC market is segmented into end-user industries, product types, production technology, and geographical region.

  • Industry movement partnerships, agreements, collaborations, expansions, acquisitions, licensing activity and product & service launches in the market.

  • Strategic SWOT & PEST analysis, MMC market characterization i.e. development and determinants.

  • Analysis of the current and future market drift in the global MMC market. Perspicacious review of the key industry opportunity, restraints, and challenges.

  • Market assessment of MMCs in the automobile industry, aerospace industry, defense, electronics, sporting goods, railway applications, in power transportation and future applications.

Table of Contents

1. Executive Summary
1.1. Metal Matrix Composites Industry
2. Scope of the study
3. Methodology
3.1. Research methodology
3.2. Research scope & Assumptions
3.3. List of data sources
4. Research & Development
5. Overview
5.1. Metal Matrix Composites
5.2. Most Important Metal Matrix Composites (MMC) Systems
5.2.1. Aluminum Matrix Composites
5.2.1.1 Existing Aluminum Matrix Composites
5.2.1.2 Novel Aluminum Matrix Composites
5.2.2. Magnesium Matrix Composites
5.2.2.1. Existing Magnesium Matrix Composites
5.2.2.2. Novel Magnesium Matrix Composites
5.2.3. Titanium Matrix Composites
5.2.3.1. Existing Titanium Matrix Composites
5.2.3.2. Novel Titanium Matrix Composites
5.2.4. Copper Matrix Composites
5.2.4.1. Existing Copper Matrix Composites
5.2.4.2. Novel Copper Matrix Composites
5.2.5. Polymer based Metal Matrix Composites
5.2.6. Other Matrix Composites
5.3. Important Metallic Matrix Materials
5.4. Property of Metal Matrix Composites
5.5. Metal Matrix Composites Manufacturing Methods
5.5.1. Liquid State Fabrication
5.5.1.1. Stir Casting
5.5.1.2. Infiltration/Pressure less melt infiltration
5.6.1.2.1 Gas pressure Infiltration
5.6.1.2.2 Squeeze Casting Infiltration
5.6.1.2.3 Pressure Die Infiltration
5.5.1.3. Disintegrated melt deposition
5.5.1.4. Pressure Infiltration
5.5.2. Solid State Fabrication
5.5.2.1. Diffusion bonding
5.5.2.2. Powder Metallurgy
5.5.3. In-situ Fabrication
5.5.4. Fabrication by Co-disposition
5.5.4.1. Electrolytic Co-disposition
5.5.4.2. Spray Co-disposition
5.5.4.3. Spray Forming
5.5.4.4. Vapour Co-disposition
5.5.5. Two-Phase Process
5.5.6. New fabrication technologies
5.6. Comparison of Different metal matrix composite techniques
5.7. Factors Affecting Metal Matrix Composites
6. Technology Insights
6.1. Aluminum Matrix Composites
6.1.1. Current Scenario of Aluminum Matrix Composites
6.1.2. Industrial trends in Aluminum Matrix Composites
6.1.3. Key-players working in Aluminum Matrix Composites
6.1.4. Key-applications of Aluminum Matrix Composites
6.1.5. Available Products
6.2. Magnesium Matrix Composites
6.2.1. Current Scenario of Magnesium Matrix Composites
6.2.2. Industrial trends in Magnesium Matrix Composites
6.2.3. Key-players working in Magnesium Matrix Composites
6.2.4. Key-applications of Magnesium Matrix Composites
6.2.5. Available Products
6.3. Titanium Matrix Composites
6.3.1. Current Scenario of Magnesium Matrix Composites
6.3.2. Industrial trends in Magnesium Matrix Composites
6.3.3. Key-players working in Magnesium Matrix Composites
6.3.4. Key-applications of Magnesium Matrix Composites
6.3.5. Available Product
6.4. Copper Matrix Composites
6.4.1. Current Scenario of Magnesium Matrix Composites
6.4.2. Industrial trends in Magnesium Matrix Composites
6.4.3. Key-players working in Magnesium Matrix Composites
6.4.4. Key-applications of Magnesium Matrix Composites
6.4.5. Available Products
6.5. Other Matrix Composites
6.6. Recent advancement in Metal Matrix Composites
6.7. Current Challenges in Metal Matrix Composites Production and Products
6.8. Key players focusing on different Metal Matrix Composites Manufacturing Techniques
7. Geographical distribution
7.1. Geographically IP filing activity
7.2. IP filing in Asia
7.3. IP filing in rest of world
8. Partnership / Collaboration / Licensing
8.1. Partnership / Collaboration / Licensing objective
8.2. Information of associated companies
8.3. Collaboration between companies
8.4. Collaboration between company and universities
8.5. Licensing activity
8.6. Acquisition in the technology domain
9. Applications of Metal Matrix Composites
9.1. Current Applications
9.1.1. Automobile Industry
9.1.2. Aerospace Industry
9.1.3. Defence
9.1.4. Electronics
9.1.5. Sporting Goods
9.1.6. Railway applications
9.1.7. In power transportation
9.1.8. Other applications
9.2. Future Applications
10. Market Analysis
10.1. Metal Matrix Composite market analysis by product
10.2. Metal Matrix Composite market analysis by geography
10.3. Metal Matrix Composite market analysis by end-user
10.4. Market Challenges
10.4.1. Competitors
10.4.2. High Production cost
11. Metal Matrix Composites: Market Determinants12. Metal Matrix Composites: Opportunity Vs. Restraints13. Metal Matrix Composites: Strategic Analysis SWOT & PEST14. Metal Matrix Composites: Recent Advancements and Future Trend

Companies Mentioned

  • 3M (U.S.)

  • CPS Technologies Corporation (U.S.)

  • Deutsche Edelstahlwerke GmbH (Germany)

  • GKN Sinter Metals (U.K.)

  • Materion Corporation (U.S.)

  • Metal Matrix Cast Composites (U.S.)

Methodology

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