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Future Composite Materials Needs in the Global Wind Energy Market

Trends, opportunities and forecast in this market to 2019 by various segment and region (North America, Europe, Asia Pacific, Rest of the World)

Publisher:        Lucintel

# of Pages:        150+

Rating: 

1 User License $4,850

Publication Date:  October, 2013

Price:       $4,850 / User License




 
Table of Contents

 1. Executive Summary  

 2. Industry Background and Classifications  
 2.1. Introduction to Wind Energy Market  
 2.1.1. Major Components of a Wind Turbine  
 2.1.2. Benefits of Wind Energy  
 2.1.3. Drawbacks of Wind Energy  
 2.1.4. Cost of Wind Energy  
 2.2. Introduction to Composite Materials in Wind Energy Market  
 2.3. Wind Blade Manufacturing Process  
 2.3.1. Hand Lay-up/Wet Lay-up Process  
 2.3.2. VARTM Process  
 2.3.3. SCRIMP Process  
 2.3.4. Prepreg Lay-up Process  
 2.3.5. SPRINT Technology  
 2.3.6. Siemens Integral Blade Technology  
 2.4. Technology Trends in Wind Blade Manufacturing  
 2.5. Future Blade Manufacturing Process Needs  
 2.6. Supply Chain for the Composite Materials in Wind Energy Industry  
 2.7. Porter's Five Forces Analysis for Composite Materials in Wind Energy Market  

 3. Composite Materials in Wind Blades  
 3.1. Overview of the Blade Manufacturing Industry  
 3.1.1. Increased Blade Length Dynamics  
 3.1.2. Challenges in Scaling Up Blade Length  
 3.1.3. Advantage of Composites Use in Blade Manufacturing  
 3.2. Composite Raw Materials in Wind Blades  
 3.2.1. Resin Types  
 3.2.2. Future Needs from Resins Used in Wind Blade Manufacturing  
 3.2.3. Prepreg Materials  
 3.2.4. Reinforcement Materials  
 3.2.5. Carbon-Fiber Use in Wind Blade Manufacturing  
 3.2.6. Future Needs from Reinforcement Fibers in Wind Blades  
 3.2.7. Adhesives for Wind Blade  
 3.2.8. Performance Improvement Desired by Blade Manufacturers  

 4. Resin, Reinforcement, and Intermediate Materials  
 4.1. Epoxy-Based Resins for Prepreg Processing  
 4.2. Epoxy-based Resins for Infusion Processing  
 4.3. Epoxy-based Resins for Hand Lay-up Process  
 4.4. Price and Performance Analysis for Epoxy Resins  
 4.5. Polyester Resin for Wind Blade Manufacturing  
 4.6. Vinyl Ester Resin for the Vacuum Infusion Process  
 4.7. New Developments in Reinforcement Materials  
 4.8. Fabric  
 4.9. Prepreg  

 5. Core Materials and Other Materials in Wind Applications  
 5.1. Overview of Core Materials in Wind Blades  
 5.2. Balsa End Grain Wood  
 5.3. PVC Foam (Polyvinylchloride Foam)  
 5.4. SAN Foam (Styrene-Acrylonitrile Foam)  
 5.5. PET Foam (Poly-Ethylene-Terephthalate)  
 5.6. Other Development in Core Material  
 5.7. New Players Entering in PET Foam (Poly-Ethylene-Terephthalate) Material Market  
 5.8. Pricing of Core Materials  
 5.9. New Development in Adhesives for Wind Energy  
 5.10. New Development in Gelcoat for Wind Energy  

 6. Market Analysis  
 6.1. Market Analysis 2013  
 6.1.1. Global Wind Energy Market by Value and by Volume  
 6.1.2. Global Composite Materials in Wind Energy Market by Value and by Volume  
 6.2. Market Trend 2008-2013  
 6.2.1. Macroeconomic Trends  
 6.2.2. Global Wind Energy Market Trend by Value and by Volume  
 6.2.3. Global Composite Materials Trend in Wind Energy Market by Value and by Volume  
 6.2.3.1 North America Composite Materials Consumption Trend in Wind Energy Market by Value and by Volume
 6.2.3.2 Europe Composite Materials Consumption Trend in Wind Energy Market by Value and by Volume  
 6.2.3.3 Asia Pacific Composite Materials Consumption Trend in Wind Energy Market by Value and by Volume  
 6.2.3.4 ROW Composite Materials Trend in Wind Energy Market by Value and by Volume  
 6.2.4. Composites Consumption Trend by Type of Raw Material  
  • Polyester
  • Epoxy
  • Glass fiber
  • Carbon fiber
  • Core
  • Adhesives
  • Coating & others
 6.2.5. Global Wind Turbine Blade Market Trend by Volume  
 6.2.6. Global Wind Blade Market Trend by Manufacturing Process  
 6.2.7. Composites Consumption by Blade Manufacturer  
 6.3. Market Drivers and Challenges  
 6.4. Market Forecast 2013-2018  
 6.4.1. Macroeconomic Forecasts  
 6.4.2. Global Wind Energy Market Forecast by Value and by Volume  
 6.4.3. Global Composite Materials in Wind Energy Market Forecast by Value and by Volume  
 6.4.4. Composites Consumption Forecast by Type of Raw Material  
  • Polyester
  • Epoxy
  • Glass fiber
  • Carbon fiber
  • Core
  • Adhesives
  • Coating & others
 7. Financial (Cost Structure and Profitability) Analysis  
 7.1. Global Composite Materials in Wind Energy Market Profitability Analysis  
 7.2. Cost Structure Trend of Global Composite Materials in Wind Energy Market: 2008-2013  
 7.3. Regional Cost Structure Trend: 2008-2013  

 8. Competitive Landscape and Growth Opportunities Analysis  
 8.1. Market Share Analysis  
 8.1.1. Market Share Analysis of Wind Blade Manufacturers  
 8.2. Growth Opportunities Analysis  
 8.2.1. Growth Opportunities for Global Composite Materials Consumption in Wind Energy Market by Material Type  
 8.2.2. Growth Opportunities for Composite Materials Consumption in Wind Energy Market by Region  
 8.2.3. Opportunities for New Material Suppliers  
 8.2.4. Roadmap for New Material Suppliers  

 9. Market Strategic Assessment  
 9.1. Emerging Trends in Global Composite Materials in Wind Energy Market  
 9.2. Unmet Needs in Composite Materials in Wind Energy Market  
 9.3. Innovations and New Product Launches  
 9.4. Mergers and Acquisitions in Composite Materials in Wind Energy Market  

 10. Expert Opinions  

 11. Company Profiles for Leading Players  
 11.1. Owens Corning  
 11.2. PPG Industries  
 11.5. Hexcel Corporation  
 11.6. DIAB International  
 11.7. Huntsman  
 11.8. Momentive  
 11.9. LM Wind Power  
 11.10. Vestas  
 11.11. Gamesa  

 List of Figures  
 List of Tables  
 Disclaimer  
 Copyright  
 Abbreviations and Technical Units  
 About Us  

List of Figures

Chapter 2. Industry Background and Classifications 
Figure 2.1: Cost of wind generated electricity 1995-2018
Figure 2.2: Comparing turbine component weights for baseline and experimental 1.5 MW and 3 MW Turbines
Figure 2.3: Key players of composite materials in wind energy market
Figure 2.4: Process flow in making rotor blades
Figure 2.5: Material flow chart for Wet Hand Lay-Up Process
Figure 2.6: Material flow chart for VARTM Process
Figure 2.7: Material flow chart for Prepreg Lay-Up Process
Figure 2.8: Supply chain-composite materials in global wind energy market
Figure 2.9: Porter’s Five Forces analysis for composite materials in global wind energy market
 
Chapter 3. Composite Materials in Wind Blades
Figure 3.1: Comparison of different materials for density and stiffness
Figure 3.2: Future materials road map for wind blades
Figure 3.3: Improvement in tensile strength property of E-Glass Fiber for Wind Energy
Figure 3.4: Improvement in tensile modulus of E-Glass Fiber for Wind Energy
Figure 3.5: Improvement in shear strength of Epoxy Adhesives
Figure 3.6: Improvement in tensile strength of Epoxy Adhesives
Figure 3.7: Ranking of performance characteristics that requires most improvement
 
Chapter 5. Core Materials and Other Materials in Wind Applications
Figure 5.1: Use of core materials in wind blades
Figure 5.2: Compression property comparison for various types of core materials 
(6 pound/ft3 density)
Figure 5.3: Shear strength comparison of various types of core materials (6 pound/ft3)
 
Chapter 6. Market Analysis
Figure 6.1: Global wind energy equipment market ($M) by region in 2013
Figure 6.2: Global wind energy market annual installation (GW) by region in 2013
Figure 6.3: Annual wind power installation by top countries in 2013
Figure 6.4: Composite materials in wind energy market ($M) distribution (%) by region in 2013
Figure 6.5: Composite materials in wind energy market ($M) by region in 2013
Figure 6.6: Composite materials in wind energy market (M lbs) by region in 2013
Figure 6.7: Composite materials consumption in global wind energy market distribution (%) by material type ($M) in 2013
Figure 6.8: Composite materials consumption in global wind energy market by material type ($M) in 2013
Figure 6.9: Composite material consumption in global wind energy by weight by material type (M lbs) in 2013
Figure 6.10: Composite material consumption in global wind energy market by material type (M lbs) in 2013
Figure 6.11: Market value ($M) and gross margin (%) of various composite materials for wind Energy Market in 2013
Figure 6.12: Wind blade market (M lbs) distribution (%) by manufacturing process in 2013
Figure 6.13: Composite consumption (M lbs) by wind blade market manufacturing process in 2013
Figure 6.14: Percentage of composite consumption by wind turbine components
Figure 6.15: Global GDP growth rate trend
Figure 6.16: Global population growth rate trend
Figure 6.17: Global inflation rate trend
Figure 6.18: Global unemployment rate trend
Figure 6.19: Regional GDP growth rate trend at constant price
Figure 6.20: Regional population growth rate trend
Figure 6.21: Population age structure 2013
Figure 6.22: Regional inflation rate trend
Figure 6.23: Regional unemployment rate trend
Figure 6.24: Global and regional per capita income trend
Figure 6.25: Global wind energy equipment market trend 2008-2013
Figure 6.26: Global wind energy market annual installation (GW) trend 2008-2013
Figure 6.27: Percentage of installed turbines by average rated capacity (2008–2013)
Figure 6.28: Global composite materials consumption in wind energy market trend 2008-2013
Figure 6.29: North America composite materials consumption in wind energy market trend 2008-2013
Figure 6.30: European composite materials consumption in wind energy market trend 2008-2013
Figure 6.31: Asia Pacific composite materials consumption in wind energy market trend 2008-2013
Figure 6.32: ROW composite materials consumption in wind energy market trend 2008-2013
Figure 6.33: Composite raw materials consumption (M lbs) trend (2008–2013) for wind energy market
Figure 6.34: Composite raw materials consumption ($M) Trend (2008–2013) for wind energy market
Figure 6.35: Global wind blade market installation trend 2008-2013
Figure 6.36: Global wind blade manufacturing process breakdown (%) trend (M lbs)
2008-2013
Figure 6.37: Composites consumption (M lbs) by wind blade manufacturers in 2013
Figure 6.38: Drivers and challenges of global composite materials in wind energy market
Figure 6.39: Trend in average turbine capacity (2014–2019)
Figure 6.40: Expected progression of average and maximum blade lengths (m)
Figure 6.41: Global GDP growth rate forecast
Figure 6.42: Global population growth rate forecast
Figure 6.43: Global inflation rate forecast
Figure 6.44: Global unemployment rate forecast
Figure 6.45: Regional GDP growth rate forecast at constant price
Figure 6.46: Regional population growth rate forecast
Figure 6.47: Population Age Structure, 2019
Figure 6.48: Regional inflation rate forecast
Figure 6.49: Regional unemployment rate forecast
Figure 6.50: Global and regional per capita income forecast
Figure 6.51: Global wind energy equipment market ($B) forecast 2014-2019
Figure 6.52: Global wind energy market annual installation (GW) forecast 2014-2019
Figure 6.53: Global composite materials consumption in wind energy market forecast 2014-2019
Figure 6.54: North America composite materials consumption in wind energy market forecast 2014-2019
Figure 6.55: European composite materials consumption in wind energy market forecast 2014-2019
Figure 6.56: Asia Pacific composite materials consumption in wind energy market forecast 2014-2019
Figure 6.57: ROW composite materials consumption in wind energy market forecast 2014-2019
Figure 6.58: Composites raw material consumption (M Pounds) forecast (2014–2019) for wind energy market
Figure 6.59: Composites raw material consumption ($M) forecast (2014–2019) for wind energy market
Figure 6.60: Forecast for composites consumption by type of materials in 2019
Figure 6.61: Composite material consumption in global wind energy by weight by material type (M lbs) in 2019
Figure 6.62: Composite material consumption in global wind energy market by material type ($M) in 2019
Figure 6.63: Composite material consumption in global wind energy by weight by material type ($M) in 2019
 
Chapter 7. Financial (Cost Structure and Profitability) Analysis 
Figure 7.1: Global composite materials in wind energy market profitability analysis (%) 2008-2013
Figure 7.2: Cost structure trend of global composite materials in wind energy market 2008-2013
Figure 7.3: Cost structure trend of North American composite materials in wind energy market 2008-2013
Figure 7.4: Cost structure trend in European composite materials in wind energy market 2008-2013
Figure 7.5: Cost structure trend in Asia Pacific composite materials in wind energy market 2008-2013
 
Chapter 8. Competitive Landscape and Growth Opportunities Analysis 
Figure 8.1: Market share analysis of wind blade manufacturers in 2012
Figure 8.2: Growth opportunities for global composite materials consumption in wind energy market by material type
Figure 8.3: Growth opportunity in global composite materials consumption in wind energy market by region
Figure 8.4: New opportunities for material suppliers in wind blade markets
Figure 8.5: Market entry barriers and their impact on material suppliers
 
Chapter 9. Market Strategic Assessment
Figure 9.1: Emerging trends in global composite materials in wind energy market
Figure 9.2: Unmet needs in global composite materials in wind energy market
 
List of Tables

Chapter 1. Executive Summary 
Table 1.1: Market parameters for raw materials of composite materials in global wind energy market and attributes of usage
Table 1.2: Market parameters for wind turbine market and attributes of usage
 
Chapter 2. Industry Background and Classifications
Table 2.1: Study estimates of percentage cost savings for turbine components due to blade weight reduction
Table 2.2: Study findings for percentage turbine component weight savings due to blade weight reduction
Table 2.3: Cost of energy savings analysis for 0.75 MW, 1.5 MW, 3 MW and 5 MW experimental wind turbines with baseline model
Table 2.4: Estimation of turbine cost savings per pound of turbine weight savings
Table 2.5: Comparison of advantages and disadvantages in Hand Lay-Up, VARTM, and Prepreg Lay-Up Processes
 
Chapter 3. Composite Materials in Wind Blades 
Table 3.1: Comparison of mechanical properties for polyester, epoxy, and vinyl ester based resins
Table 3.2: Future needs from resin systems for wind blades
Table 3.3: Comparison of mechanical properties for various fiber reinforcements
Table 3.4: Comparison of properties of adhesives
 
Chapter 4. Resin, Reinforcement, and Intermediate Materials 
Table 4.1: Material properties of HexPly M19 Epoxy System
Table 4.2: Material properties of Velinox™ 100
Table 4.3: Material properties of Renuvo Wet Laminating (WL)
Table 4.4: Material properties of RENUVO™ MPS
Table 4.5: Material properties of Araldite LY 1564 Series of Epoxy Resins in Combination with Different Hardeners
Table 4.6: Material properties for the Prime 20 LV Resin System
Table 4.7: Material properties for the Airstone 780E Epoxy Resin System
Table 4.8: Material properties for the Epolam 2040 Epoxy Resin System
Table 4.9: Material properties of the Araldite LY3505, Araldite LY1556 SP, and XB 3585 systems
Table 4.10: Material properties for the Airstone 730E Laminating System
Table 4.11: Material properties for Polylite 32850-00 Resin
Table 4.12: Material properties of Hybon 2026
Table 4.13: Material properties for E7 ViPro
Table 4.14: Material properties of Hextow Carbon Fiber
Table 4.15: Material properties of Panex 35 Carbon Fiber
Table 4.16: Material properties of Panex 35 for Prepreg and Fabric
Table 4.17: Material properties of TEX 400 Low-Twist Long Flax Fiber Roving
Table 4.18: Material properties of Advantex® Glass
Table 4.19: Material properties of WE91-1, WE91-2, WT93, and Sparpreg Systems
Table 4.20: Material properties of RENUVO™ PP
 
Chapter 5. Core Materials and Other Materials in Wind Applications 
Table 5.1: Comparison of core material properties and prices
Table 5.2: Material properties for the Baltek SB End-Grain Balsa
Table 5.3: Material properties for the Baltek SBC End-Grain Balsa
Table 5.4: Material properties of ProBalsa End-Grain Balsa
Table 5.5: Material properties of Balsaflex® UVOTEC™
Table 5.6: Material properties for the Airex C70 and Airex C71 PVC Foam
Table 5.7: Material properties of Divinycell HP PVC Foam
Table 5.8: Material properties of PV Cell G-Foam (G45-G200)
Table 5.9: Material properties of Divinycell Matrix MX 10-8
Table 5.10: Material properties of Corecell T-Foam Series
Table 5.11: Material properties for the Airex T90 and Airex T92 PET Foam
Table 5.12: Material properties for the G-PET Foam
Table 5.13: Material properties for Arma FORM PET AC
Table 5.14: Material properties for Arma FORM PET GR
Table 5.15: Material properties for TYCOR W5
Table 5.16: Mechanical strength of DOW COMPAXX™ 900 Foam
Table 5.17: Material properties of Spabond 340LV-HT
Table 5.18: Material properties of W1101
Table 5.19: Material properties of Macroplast
Table 5.20: Material properties of Crystic Ecogel S1PA
Table 5.21: Material properties of HPC Gelcoat
 
Chapter 6. Market Analysis
Table 6.1: Top five wind energy markets—annual growth rate comparisons and new MW wind energy installation
Table 6.2: Manufacturing techniques used by wind blade manufacturers
Table 6.3: Market trends (2008-2013) in global wind energy market by volume and by value
Table 6.4: Average growth rates for one, three, and five years in global wind energy equipment market in terms of annual installation
Table 6.5: Ranking of countries in terms of cumulative wind capacity 
Table 6.6: Market trends (2008-2013) in global composite materials consumption in wind energy
Table 6.7: Average growth rates for one, three, and five years in global composite materials in wind energy market in terms of $ consumption
Table 6.8: Market trends (2008-2013) North American composite materials consumption in wind energy
Table 6.9: North American composite materials consumption average growth rates for one, three, and five years in terms of $
Table 6.10: Market trends (2008-2013) in European composite materials consumption in wind energy market
Table 6.11: European composite materials consumption average growth rates for one, three, and five years in terms of $
Table 6.12: Market trends (2008-2013) in Asia Pacific composite materials consumption in wind energy
Table 6.13: Asia Pacific composite materials consumption average growth rates for one, three, and five years in terms of $
Table 6.14: Market trends (2008-2013) in ROW composite materials consumption in wind energy
Table 6.15: ROW composite materials consumption average growth rates for one, three, and five years in terms of $
Table 6.16: Market trends (2008-2013) in global wind blade market
Table 6.17: Average growth rates for one, three, and five years in global wind blade market in terms of number of blade installation
Table 6.18: Raw materials used by wind blade manufacturers
Table 6.19: Economic outlook of leading economies of four regions for the year 2014
Table 6.20: Market forecast (2014-2019) in global wind energy market
Table 6.21: Average growth rates for one, three, and five years in global wind energy market in terms of annual installation
Table 6.22: Market forecast (2014-2019) in global composite materials consumption in wind energy
Table 6.23: Average growth rates for one, three, and five years in global composite materials consumption in wind energy market in terms of $
Table 6.24: Market forecast (2014-2019) for North America composite materials consumption in wind energy
Table 6.25: Average growth rates for one, three, and five years in North America composite materials in wind energy market in terms of $ consumption
Table 6.26: Market forecast (2014-2019) for composite materials consumption in Europe
Table 6.27: Average growth rates for one, three, and five years in the European composite materials consumption in wind energy market in terms of $
Table 6.28: Market forecast (2014-2019) in Asia Pacific composite materials consumption in wind energy
Table 6.29: Average growth rates for one, three, and five years in Asia pacific composite materials consumption in wind energy market in terms of $
Table 6.30: Market forecast (2014-2019) in ROW composite materials consumption in wind energy
Table 6.31: Average growth rates for one, three, and five years in ROW composite materials consumption in wind energy market in terms of $
 
Chapter 8. Competitive Landscape and Growth Opportunities Analysis
Table 8.1: Market share of wind blade manufacturers in 2012
 

Global Refractories Market Size study, by Form ( Shaped Refractories, Unshaped Refractories), by Alkalinity ( Acidic & Neutral Refractories, Basi...

Publisher:        Bizwit Research & Consulting LLP

# of Pages:        200

Rating: 

1 User License $4,950

Publication Date:  October, 2020

Price:       $4,950 / User License




Chapter 1. Executive Summary
1.1. Market Snapshot
1.2. Global & Segmental Market Estimates & Forecasts, 2018-2027 (USD Billion)
1.2.1. Refractories Market, by Region, 2018-2027 (USD Billion)
1.2.2. Refractories Market, by FORM, 2018-2027 (USD Billion)
1.2.3. Refractories Market, by ALKALINITY, 2018-2027 (USD Billion)
1.2.4. Refractories Market, by END-USE INDUSTRY, 2018-2027 (USD Billion)
1.3. Key Trends
1.4. Estimation Methodology
1.5. Research Assumption
Chapter 2. Global Refractories Market Definition and Scope
2.1. Objective of the Study
2.2. Market Definition & Scope
2.2.1. Scope of the Study
2.2.2. Industry Evolution
2.3. Years Considered for the Study
2.4. Currency Conversion Rates
Chapter 3. Global Refractories Market Dynamics
3.1. Refractories Market Impact Analysis (2018-2027)
3.1.1. Market Drivers
3.1.2. Market Challenges
3.1.3. Market Opportunities
Chapter 4. Global Refractories Market: Industry Analysis
4.1. Porter’s 5 Force Model
4.1.1. Bargaining Power of Suppliers
4.1.2. Bargaining Power of Buyers
4.1.3. Threat of New Entrants
4.1.4. Threat of Substitutes
4.1.5. Competitive Rivalry
4.1.6. Futuristic Approach to Porter’s 5 Force Model (2017-2027)
4.2. PEST Analysis
4.2.1. Political
4.2.2. Economical
4.2.3. Social
4.2.4. Technological
4.3. Investment Adoption Model
4.4. Analyst Recommendation & Conclusion
Chapter 5. Global Refractories Market, by FORM
5.1. Market Snapshot
5.2. Global Refractories Market by FORM, Performance - Potential Analysis
5.3. Global Refractories Market Estimates & Forecasts by FORM 2017-2027 (USD Billion)
5.4. Refractories Market, Sub Segment Analysis
5.4.1. Shaped Refractories
5.4.2. Unshaped Refractories
Chapter 6. Global Refractories Market, by ALKALINITY
6.1. Market Snapshot
6.2. Global Refractories Market by ALKALINITY, Performance - Potential Analysis
6.3. Global Refractories Market Estimates & Forecasts by ALKALINITY 2017-2027 (USD Billion)
6.4. Refractories Market, Sub Segment Analysis
6.4.1. Acidic & Neutral Refractories
6.4.2. Basic Refractories
Chapter 7. Global Refractories Market, by END-USE INDUSTRY
7.1. Market Snapshot
7.2. Global Refractories Market by END-USE INDUSTRY, Performance - Potential Analysis
7.3. Global Refractories Market Estimates & Forecasts by END-USE INDUSTRY2017-2027 (USD Billion)
7.4. Refractories Market, Sub Segment Analysis
7.4.1. Iron & Steel
7.4.2. Power Generation
7.4.3. Non-Ferrous Metal
7.4.4. Cement
7.4.5. Glass
7.4.6. Other Industries

Chapter 8. Global Refractories Market, Regional Analysis
8.1. Refractories Market, Regional Market Snapshot
8.2. North America Refractories Market
8.2.1. U.S. Refractories Market
8.2.1.1. FORM breakdown estimates & forecasts, 2017-2027
8.2.1.2. ALKALINITY breakdown estimates & forecasts, 2017-2027
8.2.1.3. END-USE INDUSTRY breakdown estimates & forecasts, 2017-2027
8.2.2. Canada Refractories Market
8.3. Europe Refractories Market Snapshot
8.3.1. U.K. Refractories Market
8.3.2. Germany Refractories Market
8.3.3. France Refractories Market
8.3.4. Spain Refractories Market
8.3.5. Italy Refractories Market
8.3.6. Rest of Europe Refractories Market
8.4. Asia-Pacific Refractories Market Snapshot
8.4.1. China Refractories Market
8.4.2. India Refractories Market
8.4.3. Japan Refractories Market
8.4.4. Australia Refractories Market
8.4.5. South Korea Refractories Market
8.4.6. Rest of Asia Pacific Refractories Market
8.5. Latin America Refractories Market Snapshot
8.5.1. Brazil Refractories Market
8.5.2. Mexico Refractories Market
8.6. Rest of The World Refractories Market

Chapter 9. Competitive Intelligence
9.1. Top Market Strategies
9.2. Company Profiles
9.2.1. RHI MAGNESITA
9.2.1.1. Key Information
9.2.1.2. Overview
9.2.1.3. Financial (Subject to Data Availability)
9.2.1.4. FORM Summary
9.2.1.5. Recent Developments
9.2.2. Vesuvius
9.2.3. Krosaki Harima
9.2.4. Shinagawa Refractories
9.2.5. Saint-Gobain
9.2.6. Corning Incorporated
9.2.7. Morgan Advanced Materials
9.2.8. Coorstek Incorporated
9.2.9. Harbisonwalker International
9.2.10. Imerys
Chapter 10. Research Process
10.1. Research Process
10.1.1. Data Mining
10.1.2. Analysis
10.1.3. Market Estimation
10.1.4. Validation
10.1.5. Publishing
10.2. Research Attributes
10.3. Research Assumption

Metal Matrix Composite Market by Matrix Type (Aluminum MMC, Magnesium MMC, Copper MMC, Super Alloys MMC), Reinforcement Type, Production Technology, R...

by Matrix Type (Aluminum MMC, Magnesium MMC, Copper MMC, Super Alloys MMC), Reinforcement Type, Production Technology, Reinforcement Material, End-Use Industry, and Region

Publisher:        MarketsandMarkets

# of Pages:        175

Rating: 

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Publication Date:  November, 2020

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TABLE OF CONTENTS

 

1              INTRODUCTION                27

1.1          OBJECTIVES OF THE STUDY          27

1.2          MARKET DEFINITION      27

1.3          MARKET SCOPE                28

1.3.1      METAL MATRIX COMPOSITE MARKET SEGMENTATION  28

1.3.2      METAL MATRIX COMPOSITE MARKET, REGIONAL SCOPE               28

1.3.3      YEARS CONSIDERED FOR THE STUDY        29

1.4          CURRENCY          29

1.5          UNIT CONSIDERED          29

1.6          STAKEHOLDERS 29

1.7          SUMMARY OF CHANGES              30

2              RESEARCH METHODOLOGY         31

2.1          RESEARCH DATA               31

FIGURE 1             METAL MATRIX COMPOSITE MARKET: RESEARCH DESIGN             31

2.1.1      SECONDARY DATA           32

2.1.1.1   Key data from secondary sources             32

2.1.2      PRIMARY DATA 32

2.1.2.1   Key data from primary sources  33

2.1.2.2   Breakdown of primaries               33

2.2          MARKET SIZE ESTIMATION          34

FIGURE 2             METAL MATRIX COMPOSITE MARKET: SUPPLY-SIDE ESTIMATION METHOD          34

FIGURE 3             METAL MATRIX COMPOSITE MARKET: DEMAND-SIDE ESTIMATION METHOD      35

2.3          DATA TRIANGULATION 35

FIGURE 4             METAL MATRIX COMPOSITE MARKET: DATA TRIANGULATION   35

2.4          ASSUMPTIONS 36

3              EXECUTIVE SUMMARY  37

FIGURE 5             ALUMINUM METAL MATRIX COMPOSITE TYPE DOMINATED

THE MARKET IN 2019      38

FIGURE 6             DISCONTINUOUS SEGMENT DOMINATED THE MARKET IN 2019 38

FIGURE 7             AUTOMOTIVE & TRANSPORTATION IS THE KEY END-USE INDUSTRY IN

THE METAL MATRIX COMPOSITE MARKET            39

FIGURE 8             POWDER METALLURGY DOMINATES THE PRODUCTION

TECHNOLOGY SEGMENT               39

FIGURE 9             THE US LED THE METAL MATRIX COMPOSITE MARKET IN 2019    40

FIGURE 10           NORTH AMERICA ACCOUNTED FOR THE LARGEST MARKET SHARE IN 2019            40



4              PREMIUM INSIGHTS       42

4.1          ATTRACTIVE OPPORTUNITIES IN THE METAL MATRIX COMPOSITE MARKET          42

FIGURE 11           HIGH DEMAND FROM AUTOMOTIVE & TRANSPORTATION END-USE INDUSTRY TO DRIVE THE MARKET   42

4.2          METAL MATRIX COMPOSITE MARKET, BY PRODUCTION TECHNOLOGY AND MATRIX TYPE, 2019 42

FIGURE 12           ALUMINUM METAL MATRIX COMPOSITE ACCOUNTED FOR THE LARGEST SHARE OF THE GLOBAL MARKET                42

4.3          METAL MATRIX COMPOSITE MARKET, BY REINFORCEMENT TYPE              43

FIGURE 13           DISCONTINUOUS REINFORCEMENT LEADS THE DEMAND              43

4.4          METAL MATRIX COMPOSITE MARKET, BY END-USE INDUSTRY    43

FIGURE 14           AUTOMOTIVE & TRANSPORTATION DOMINATES THE OVERALL MARKET               43

4.5          METAL MATRIX COMPOSITE MARKET, BY KEY COUNTRIES            44

FIGURE 15           CHINA TO REGISTER THE HIGHEST CAGR                44

5              MARKET OVERVIEW       45

5.1          INTRODUCTION                45

5.2          MARKET DYNAMICS       45

FIGURE 16           DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES IN THE METAL MATRIX COMPOSITE MARKET                45

5.2.1      DRIVERS               46

5.2.1.1   Increase in the use of MMCs for manufacturing structural aerospace composite parts    46

5.2.1.2   Increasing demand for lightweight and strong MMC from the aerospace & defense industry       46

5.2.2      RESTRAINTS       46

5.2.2.1   Complicated manufacturing process       46

5.2.2.2   Concerns about reparability and recyclability       46

5.2.2.3   Disruption in supply chain and lower demand due to

COVID-19 pandemic       47

5.2.3      OPPORTUNITIES               47

5.2.3.1   Potential opportunities in new applications, such as robots,

high-speed machinery, and high-speed rotating shafts  47

5.2.4      CHALLENGES      47

5.2.4.1   To develop a low-cost, highly reliable manufacturing process      47

5.2.4.2   To develop low-cost fiber reinforcement and highly reliable coating for reinforcement-matrix interface 47

5.2.4.3   Maintaining an uninterrupted supply chain and operating

at full capacity   48

5.3          PORTER’S FIVE FORCES ANALYSIS             48

FIGURE 17           PORTER’S FIVE FORCES ANALYSIS             48

5.3.1      THREAT OF NEW ENTRANTS        49

5.3.2      THREAT OF SUBSTITUTES              49

5.3.3      BARGAINING POWER OF SUPPLIERS       49



5.3.4      BARGAINING POWER OF BUYERS             49

5.3.5      INTENSITY OF COMPETITIVE RIVALRY     50

5.4          VALUE CHAIN ANALYSIS               50

FIGURE 18           VALUE CHAIN ANALYSIS: MAXIMUM VALUE IS ADDED DURING

METAL MATRIX COMPOSITE DESIGN & PROCESSING PHASE        50

5.5          PRICING ANALYSIS          50

5.6          MANUFACTURING PROCESS ANALYSIS  51

5.7          PATENT ANALYSIS           51

5.7.1      METHODOLOGY               51

5.7.2      DOCUMENT TYPE             51

FIGURE 19           PUBLICATION TRENDS – FROM 2011 TO 2019      51

5.7.3      INSIGHTS             52

FIGURE 20           JURISDICTION ANALYSIS               52

5.7.4      TOP APPLICANTS OF METAL MATRIX COMPOSITE             52

FIGURE 21           TOP APPLICANTS OF METAL MATRIX COMPOSITE             52

5.8          METAL MATRIX COMPOSITE MARKET ECOSYSTEM           53

5.9          CASE STUDY       53

6              MACROECONOMIC OVERVIEW AND KEY TRENDS              54

6.1          INTRODUCTION                54

6.2          TRENDS AND FORECAST OF GDP               54

TABLE 1                ANNUAL PERCENTAGE CHANGE OF GDP, BY REGION, APRIL 2020              54

6.3          IMPACT OF COVID-19 ON AEROSPACE INDUSTRY              55

TABLE 2                NUMBER OF AIRPLANE DELIVERIES, BY MANUFACTURERS, 2019                55

6.3.1      SHORT-TERM STRATEGIES TO MANAGE COST STRUCTURE

AND SUPPLY CHAINS      56

6.3.2      NEW OPPORTUNITIES    56

6.4          IMPACT OF COVID-19 ON AUTOMOTIVE INDUSTRY         56

6.4.1      SHORT-TERM STRATEGIES TO MANAGE COST STRUCTURE

AND SUPPLY CHAINS      57

6.4.2      NEW OPPORTUNITIES    57

7              METAL MATRIX COMPOSITE MARKET, BY MATRIX TYPE 58

7.1          INTRODUCTION                59

FIGURE 22           ALUMINUM METAL MATRIX COMPOSITE TO DOMINATE THE METAL MATRIX COMPOSITE MARKET DURING THE FORECAST PERIOD  59

TABLE 3                METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (USD MILLION)           59

TABLE 4                METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (TON)             60

7.2          ALUMINUM METAL MATRIX COMPOSITE             60

7.2.1      THE SEGMENT HOLDS MAJORITY OF THE MARKET SHARE              60

FIGURE 23           NORTH AMERICA TO BE THE LARGEST METAL MATRIX COMPOSITE MARKET        61

TABLE 5                ALUMINUM METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (USD MILLION)           61

TABLE 6                ALUMINUM METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (TON)             61

7.3          MAGNESIUM METAL MATRIX COMPOSITE          62

7.3.1      LOW-DENSITY AND CORROSION RESISTANCE PROPERTIES TO

DRIVE THE DEMAND       62

TABLE 7                MAGNESIUM METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (USD MILLION)           62

TABLE 8                MAGNESIUM METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (TON)             62

7.4          SUPER ALLOYS METAL MATRIX COMPOSITE         63

7.4.1      FASTEST-GROWING SEGMENT OWING TO HIGH DEMAND FROM THE AUTOMOTIVE SECTOR       63

TABLE 9                SUPER ALLOYS METAL MATRIX COMPOSITE MARKET SIZE, BY REGION, 2018–2025 (USD MILLION)             63

TABLE 10              SUPER ALLOYS METAL MATRIX COMPOSITE MARKET SIZE, BY REGION, 2018–2025 (TON)               63

7.5          COPPER METAL MATRIX COMPOSITE      64

7.5.1      HIGH DEMAND FROM EUROPE AND NORTH AMERICA    64

TABLE 11              COPPER METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (USD MILLION)           64

TABLE 12              COPPER METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (TON)             64

7.6          OTHER METAL MATRIX COMPOSITES      65

TABLE 13              OTHER METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (USD MILLION)           65

TABLE 14              OTHER METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (TON)             65

8              METAL MATRIX COMPOSITE MARKET, BY PRODUCTION TECHNOLOGY   66

8.1          INTRODUCTION                67

FIGURE 24           POWDER METALLURGY SEGMENT LEADS THE DEMAND IN THE METAL MATRIX COMPOSITE MARKET       67

TABLE 15              METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (USD MILLION)   67

TABLE 16              METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (TON)     68

8.2          LIQUID METAL INFILTRATION     68

8.2.1      INCREASING USAGE IN EUROPEAN COUNTRIES 68

TABLE 17              LIQUID METAL INFILTRATION: METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  68

TABLE 18              LIQUID METAL INFILTRATION: METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     69

8.2.1.1   Gas pressure infiltration               69

8.2.1.2   Squeeze casting infiltration method        69

8.2.1.3   Others  69

8.3          POWDER METALLURGY 69

8.3.1      MOST WIDELY USED TECHNOLOGY IN THE MMC MARKET             69

FIGURE 25           NORTH AMERICA LEADS THE DEMAND IN POWDER METALLURGY METAL MATRIX COMPOSITE MARKET 70

TABLE 19              POWDER METALLURGY: METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  70

TABLE 20              POWDER METALLURGY: METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     70

8.3.1.1   Hot pressing       71

8.3.1.2   Ball mill mixing   71

8.3.1.3   Extrusion/rolling               71

8.3.1.4   Vacuum pressing             71

8.4          CASTING              71

8.4.1      GROWING USAGE IN PROCESS ALUMINUM MMC            71

TABLE 21              CASTING: METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (USD MILLION)           72

TABLE 22              CASTING: METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (TON)             72

8.4.1.1   Stir casting          73

8.4.1.2   Gravity casting  73

8.4.1.3   Low-pressure casting     73

8.4.1.4   Compo-casting  73

8.5          DEPOSITION TECHNIQUES           73

8.5.1      CHEMICAL VAPOR DEPOSITION, SPRAY DEPOSITION, AND PHYSICAL VAPOR DEPOSITION ARE THE MOST WIDELY USED DEPOSITION TECHNIQUES               73

TABLE 23              DEPOSITION TECHNIQUES: METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  73

TABLE 24              DEPOSITION TECHNIQUES: METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     74

8.5.1.1   Electroplating    74

8.5.1.2   Spray foaming   74

8.5.1.3   Chemical vapor deposition          74

9              METAL MATRIX COMPOSITE MARKET, BY REINFORCEMENT TYPE              75

9.1          INTRODUCTION                76

FIGURE 26           DISCONTINUOUS REINFORCED TYPE TO DOMINATE THE METAL MATRIX COMPOSITE MARKET DURING THE FORECAST PERIOD           76

TABLE 25              METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE,

2018–2025 (USD MILLION)           76

TABLE 26              METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE,

2018–2025 (TON)             76

9.2          CONTINUOUS REINFORCEMENT               77

9.2.1      CONTINUOUS REINFORCEMENT PROVIDES HIGH STRENGTH TO MMC    77

TABLE 27              CONTINUOUS REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  77

TABLE 28              CONTINUOUS REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     77

9.3          DISCONTINUOUS REINFORCEMENT        78

9.3.1      GROWING USAGE OF SHORT FIBERS AND WHISKERS IS FUELING

THE DEMAND    78

FIGURE 27           NORTH AMERICA TO LEAD THE DISCONTINUOUS REINFORCED METAL MATRIX COMPOSITE MARKET DURING THE FORECAST PERIOD                78

TABLE 29              DISCONTINUOUS REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  79

TABLE 30              DISCONTINUOUS REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     79

9.3.1.1   Whiskers             79

9.3.1.2   Short fibers        79

9.4          PARTICLES           80

9.4.1      MOST WIDELY USED PARTICLES ARE ALUMINA, SILICON CARBIDE,

BORON CARBIDE, TITANIUM CARBIDE, AND TUNGSTEN CARBIDE              80

TABLE 31              PARTICLE REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  80

TABLE 32              PARTICLE REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     80

10           METAL MATRIX COMPOSITE MARKET, BY REINFORCEMENT MATERIAL   81

10.1        INTRODUCTION                82

FIGURE 28           SILICON CARBIDE SEGMENT LEADS THE DEMAND IN THE GLOBAL MARKET           82

TABLE 33              METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (USD MILLION)  82

TABLE 34              METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (TON)     82

10.2        SILICON CARBIDE             83

10.2.1    MOST-WIDELY USED REINFORCEMENT MATERIAL            83

FIGURE 29           NORTH AMERICA LEADS THE DEMAND IN SIC REINFORCED METAL MATRIX COMPOSITE MARKET              83

TABLE 35              SILICON CARBIDE REINFORCED METAL MATRIX COMPOSITE MARKET SIZE, BY REGION, 2018–2025 (USD MILLION)             83

TABLE 36              SILICON CARBIDE REINFORCED METAL MATRIX COMPOSITE MARKET SIZE, BY REGION, 2018–2025 (TON)                84

10.3        ALUMINA            84

10.3.1    ALUMINA OFFERS SUPERIOR STABILITY AND EXHIBITS BETTER CORROSION & HIGH TEMPERATURE RESISTANCE 84

TABLE 37              ALUMINA REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  84

TABLE 38              ALUMINA REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     85

10.4        CARBON FIBER  85

10.4.1    INCREASING PENETRATION OF CONTINUOUS REINFORCEMENT TYPE

IS DRIVING THE DEMAND             85

TABLE 39              CARBON FIBER REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  85

TABLE 40              CARBON FIBER REINFORCED METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     86

10.4.1.1                Graphite              86

10.4.1.2                Nanotubes         86

10.4.1.3                Other carbon fibers        86

10.5        OTHER REINFORCEMENTS            86

TABLE 41              OTHER REINFORCEMENT METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (USD MILLION)  87

TABLE 42              OTHER REINFORCEMENT METAL MATRIX COMPOSITE MARKET SIZE,

BY REGION, 2018–2025 (TON)     87

11           METAL MATRIX COMPOSITE MARKET, BY END-USE INDUSTRY    88

11.1        INTRODUCTION                89

FIGURE 30           AUTOMOTIVE & TRANSPORTATION TO BE THE LARGEST END-USE INDUSTRY OF METAL MATRIX COMPOSITE       89

TABLE 43              METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY,

2018–2025 (USD MILLION)           90

TABLE 44              METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY,

2018–2025 (TON)             90

11.2        AUTOMOTIVE & TRANSPORTATION        91

11.2.1    THE INDUSTRY HOLDS THE LARGEST SHARE IN THE MMC MARKET             91

FIGURE 31           NORTH AMERICA TO BE THE LEADING METAL MATRIX COMPOSITE MARKET IN AUTOMOTIVE & TRANSPORTATION          92

TABLE 45              METAL MATRIX COMPOSITE MARKET SIZE IN AUTOMOTIVE & TRANSPORTATION, BY REGION, 2018–2025 (USD MILLION) 92

TABLE 46              METAL MATRIX COMPOSITE MARKET SIZE IN AUTOMOTIVE & TRANSPORTATION, BY REGION, 2018–2025 (TON)    92

11.3        ELECTRICAL & ELECTRONICS        93

11.3.1    GROWING USAGE IN PRINTED CIRCUIT BOARDS TO DRIVE THE DEMAND               93

TABLE 47              METAL MATRIX COMPOSITE MARKET SIZE IN ELECTRICAL & ELECTRONICS, BY REGION, 2018–2025 (USD MILLION)             93

TABLE 48              METAL MATRIX COMPOSITE MARKET SIZE IN ELECTRICAL & ELECTRONICS, BY REGION, 2018–2025 (TON)                94

11.4        AEROSPACE & DEFENSE                94

11.4.1    GROWING DEMAND FROM EUROPEAN COUNTRIES TO DRIVE THE MARKET         94

TABLE 49              DEMAND FOR AIRPLANES, BY REGION, 2015 TO 2034       95

TABLE 50              METAL MATRIX COMPOSITE MARKET SIZE IN AEROSPACE & DEFENSE,

BY REGION, 2018–2025 (USD MILLION)  95

TABLE 51              METAL MATRIX COMPOSITE MARKET SIZE IN AEROSPACE & DEFENSE,

BY REGION, 2018–2025 (TON)     95

11.5        INDUSTRIAL       96

11.5.1    GROWING PENETRATION OF MMC IN ELECTROPLATED AND IMPREGNATED DIAMOND TOOLS   96

TABLE 52              METAL MATRIX COMPOSITE MARKET SIZE IN INDUSTRIAL, BY REGION, 2018–2025 (USD MILLION)            96

TABLE 53              METAL MATRIX COMPOSITE MARKET SIZE IN INDUSTRIAL, BY REGION, 2018–2025 (TON)              97

11.6        OTHER END-USE INDUSTRIES      97

TABLE 54              METAL MATRIX COMPOSITE MARKET SIZE IN OTHER INDUSTRIES, BY REGION, 2018–2025 (USD MILLION)                97

TABLE 55              METAL MATRIX COMPOSITE MARKET SIZE IN OTHER INDUSTRIES, BY REGION, 2018–2025 (TON)                98

12           METAL MATRIX COMPOSITE MARKET, BY REGION            99

12.1        INTRODUCTION                100

FIGURE 32           CHINA TO REGISTER THE HIGHEST CAGR DURING THE FORECAST PERIOD               100

TABLE 56              METAL MATRIX COMPOSITE MARKET SIZE, BY REGION,

2018–2025 (USD MILLION)           100

TABLE 57              METAL MATRIX COMPOSITE MARKET SIZE, BY REGION, 2018–2025 (TON)              101

12.2        NORTH AMERICA             101

FIGURE 33           NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SNAPSHOT        102

TABLE 58              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY, 2018–2025 (USD MILLION)  102

TABLE 59              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY, 2018–2025 (TON)     103

TABLE 60              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           103

TABLE 61              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             103

TABLE 62              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE, 2018–2025 (USD MILLION)                104

TABLE 63              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE, 2018–2025 (TON)              104

TABLE 64              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY PRODUCTION TECHNOLOGY, 2018–2025 (USD MILLION)          104

TABLE 65              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY PRODUCTION TECHNOLOGY, 2018–2025 (TON)            105

TABLE 66              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT TYPE, 2018–2025 (USD MILLION)     105

TABLE 67              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT TYPE, 2018–2025 (TON)       105

TABLE 68              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT MATERIAL, 2018–2025 (USD MILLION)         106

TABLE 69              NORTH AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT MATERIAL, 2018–2025 (TON)            106

12.2.1    CANADA              106

12.2.1.1                Aerospace & defense industry to drive the market          106

TABLE 70              CANADA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)                107

TABLE 71              CANADA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)  107

12.2.2    US          107

12.2.2.1                Largest MMC market in the world            107

TABLE 72              US: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)            108

TABLE 73              US: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)              108

12.3        EUROPE               109

FIGURE 34           EUROPE: METAL MATRIX COMPOSITE MARKET SNAPSHOT          109

TABLE 74              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY,

2018–2025 (USD MILLION)           110

TABLE 75              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY,

2018–2025 (TON)             110

TABLE 76              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION) 110

TABLE 77              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)   111

TABLE 78              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (USD MILLION)           111

TABLE 79              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (TON)             111

TABLE 80              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (USD MILLION)             112

TABLE 81              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (TON)  112

TABLE 82              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE, 2018–2025 (USD MILLION)                112

TABLE 83              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE, 2018–2025 (TON)             113

TABLE 84              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (USD MILLION)             113

TABLE 85              EUROPE: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (TON)  113

12.3.1    GERMANY           114

12.3.1.1                Automotive & transportation industry to fuel the growth             114

TABLE 86              GERMANY: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           114

TABLE 87              GERMANY: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             114

12.3.2    FRANCE                115

12.3.2.1                Presence of leading aircraft manufacturers          115

TABLE 88              FRANCE: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION) 115

TABLE 89              FRANCE: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)   115

12.3.3    UK          116

12.3.3.1                Stringent government regulations are boosting the

consumption of MMC    116

TABLE 90              UK: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           116

TABLE 91              UK: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)              116

12.3.4    REST OF EUROPE              117

TABLE 92              REST OF EUROPE: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           117

TABLE 93              REST OF EUROPE: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             117

12.4        APAC     118

FIGURE 35           APAC: METAL MATRIX COMPOSITE MARKET SNAPSHOT                118

TABLE 94              APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY,

2018–2025 (USD MILLION)           119

TABLE 95              APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY,

2018–2025 (TON)             119

TABLE 96              APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)      119

TABLE 97              APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)        120

TABLE 98              APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (USD MILLION)           120

TABLE 99              APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (TON)             120

TABLE 100            APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (USD MILLION)             121

TABLE 101            APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (TON)       121

TABLE 102            APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE, 2018–2025 (USD MILLION)                121

TABLE 103            APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE, 2018–2025 (TON)  122

TABLE 104            APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (USD MILLION)             122

TABLE 105            APAC: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (TON)       122

12.4.1    CHINA   123

12.4.1.1                Fast-growing automotive sector in the country to fuel the growth            123

TABLE 106            CHINA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)    123

TABLE 107            CHINA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)      123

12.4.2    JAPAN  124

12.4.2.1                Growing penetration of aluminum MMC in the country 124

TABLE 108            JAPAN: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)    124

TABLE 109            JAPAN: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)      124

12.4.3    SOUTH KOREA   125

12.4.3.1                Growing implementation in automotive components     125

TABLE 110            SOUTH KOREA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           125

TABLE 111            SOUTH KOREA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             125

12.4.4    INDIA    126

12.4.4.1                One of the fastest-growing economies in the world        126

TABLE 112            INDIA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)     126

TABLE 113            INDIA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)        126

12.4.5    REST OF APAC   127

TABLE 114            REST OF APAC: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           127

TABLE 115            REST OF APAC: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             127

12.5        LATIN AMERICA                128

TABLE 116            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY, 2018–2025 (USD MILLION)     128

TABLE 117            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY, 2018–2025 (TON)       128

TABLE 118            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           128

TABLE 119            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             129

TABLE 120            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE, 2018–2025 (USD MILLION)                129

TABLE 121            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE, 2018–2025 (TON)                129

TABLE 122            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY PRODUCTION TECHNOLOGY, 2018–2025 (USD MILLION)          130

TABLE 123            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY PRODUCTION TECHNOLOGY, 2018–2025 (TON)            130

TABLE 124            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT TYPE, 2018–2025 (USD MILLION)     130

TABLE 125            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT TYPE, 2018–2025 (TON)       131

TABLE 126            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT MATERIAL, 2018–2025 (USD MILLION)         131

TABLE 127            LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY REINFORCEMENT MATERIAL, 2018–2025 (TON)            131

12.5.1    BRAZIL  132

12.5.1.1                Growing investment in the automotive sector in the country to replace traditional materials       132

TABLE 128            BRAZIL: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)   132

TABLE 129            BRAZIL: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)      132



12.5.2    MEXICO               133

12.5.2.1                Second-largest MMC market in Latin America     133

TABLE 130            MEXICO: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION) 133

TABLE 131            MEXICO: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)   133

12.5.3    REST OF LATIN AMERICA              134

TABLE 132            REST OF LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           134

TABLE 133            REST OF LATIN AMERICA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             134

12.6        MIDDLE EAST & AFRICA 135

TABLE 134            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY,

2018–2025 (TON)             135

TABLE 135            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY COUNTRY,

2018–2025 (USD MILLION)           135

TABLE 136            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)        136

TABLE 137            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)          136

TABLE 138            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (USD MILLION)           136

TABLE 139            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY MATRIX TYPE,

2018–2025 (TON)             137

TABLE 140            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (USD MILLION)                137

TABLE 141            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY PRODUCTION TECHNOLOGY, 2018–2025 (TON)         137

TABLE 142            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE, 2018–2025 (USD MILLION)  138

TABLE 143            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT TYPE, 2018–2025 (TON)    138

TABLE 144            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (USD MILLION)             138

TABLE 145            MEA: METAL MATRIX COMPOSITE MARKET SIZE, BY REINFORCEMENT MATERIAL, 2018–2025 (TON)         139

12.6.1    UAE       139

12.6.1.1                Automotive & transportation is the major end-use industry        139

TABLE 146            UAE: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)         139

TABLE 147            UAE: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)           140

12.6.2    ISRAEL  140

12.6.2.1                Aerospace & defense sector to drive the MMC market  140

TABLE 148            ISRAEL: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (USD MILLION)    140

TABLE 149            ISRAEL: METAL MATRIX COMPOSITE MARKET SIZE, BY END-USE INDUSTRY, 2018–2025 (TON)      141

12.6.3    REST OF MEA     141

TABLE 150            REST OF MEA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (USD MILLION)           141

TABLE 151            REST OF MEA: METAL MATRIX COMPOSITE MARKET SIZE,

BY END-USE INDUSTRY, 2018–2025 (TON)             142

13           COMPETITIVE LANDSCAPE           143

13.1        MARKET SHARE ANALYSIS            143

FIGURE 36           MARKET SHARE ANALYSIS            143

13.2        REVENUE ANALYSIS OF TOP MARKET PLAYERS, 2019        144

TABLE 152            REVENUE ANALYSIS OF TOP MARKET PLAYERS, 2019        144

13.3        COMPANY EVALUATION MATRIX             144

13.3.1    STAR      144

13.3.2    PERVASIVE         145

13.3.3    PARTICIPANTS  145

13.3.4    EMERGING LEADERS      145

FIGURE 37           METAL MATRIX COMPOSITE MARKET (GLOBAL) COMPETITIVE

LEADERSHIP MAPPING, 2019      146

13.4        STRENGTH OF PRODUCT PORTFOLIO      147

FIGURE 38           PRODUCT PORTFOLIO ANALYSIS OF TOP PLAYERS IN THE METAL MATRIX COMPOSITE MARKET  147

13.5        BUSINESS STRATEGY EXCELLENCE             148

FIGURE 39           BUSINESS STRATEGY EXCELLENCE OF TOP PLAYERS IN METAL MATRIX COMPOSITE MARKET        148

14           COMPANY PROFILES      149

(Business Overview, Products Offered, SWOT Analysis, Winning Imperatives, Development and Growth Strategies, Threat from Competition and Right to Win)*

14.1        MATERION CORPORATION          149

FIGURE 40           MATERION CORPORATION: COMPANY SNAPSHOT          149

FIGURE 41           MATERION CORPORATION: SWOT ANALYSIS      151

14.2        CPS TECHNOLOGIES CORPORATION        153

FIGURE 42           CPS TECHNOLOGIES CORPORATION: COMPANY SNAPSHOT         153

FIGURE 43           CPS TECHNOLOGIES CORPORATION: SWOT ANALYSIS     154

14.3        GKN SINTER METALS      156

FIGURE 44           GKN SINTER METALS: SWOT ANALYSIS   157

14.4        3M         159

FIGURE 45           3M: COMPANY SNAPSHOT          159

FIGURE 46           3M: SWOT ANALYSIS      161

14.5        DESTSCE EDELSTASLWERKE GMBH           163

FIGURE 47           DESTSCE EDELSTASLWERKE GMBH: SWOT ANALYSIS        164

14.6        METAL MATRIX CAST COMPOSITES, LLC                166

14.7        PLANSEE SE        167

14.8        CERAMTEC          168

FIGURE 48           CERAMTEC: COMPANY SNAPSHOT          168

14.9        SANDVIK AB       170

FIGURE 49           SANDVIK AB: COMPANY SNAPSHOT       170

14.10     FERROTEC CORPORATION            172

14.11     OTHER COMPANIES        173

14.11.1  DWA ALUMINUM COMPOSITES                173

14.11.2  SITEK INSULATION          173

14.11.3  TALON COMPOSITES      173

14.11.4  FABRISONIC       173

14.11.5  MC 21   173

14.11.6  COMPOSITES METAL TECHNOLOGY         174

14.11.7  TISICS    174

14.11.8  AMETEK SPECIALTY METAL PRODUCTS   174

14.11.9  MBN NANOMATERIALIA              174

*Business Overview, Products Offered, SWOT Analysis, Winning Imperatives, Development and Growth Strategies, Threat from Competition and Right to Win might not be captured in case of unlisted companies.

15           APPENDIX           175

15.1        DISCUSSION GUIDE        175

15.2        KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL   178

15.3        AVAILABLE CUSTOMIZATIONS   180

15.4        RELATED REPORTS           180

15.5        AUTHOR DETAILS             181