Growth Opportunities for Insulation in Global Aerospace Industry
According to a new market report published by Lucintel, the future of the aerospace insulation market looks positive with opportunities in commercial aircraft, regional aircraft, and general aviation. Insulation in the global aerospace industry is forecast to grow at a CAGR of 2.8% from 2015 to 2020. The major growth drivers of this market are increasing deliveries of aircraft and the demand for lightweight insulation materials. Aerospace industry players are focusing on reducing the weight of aircraft, which necessitates the demand for lightweight products and materials.
In this market, thermal and acoustic insulation are the two types of insulation. Thermal insulation is the largest segment by product, and it is expected to remain the same during the forecast period. Lucintel predicts that the demand for insulation in the regional aircraft segment is likely to experience the highest growth in the forecast period supported by rise in delivery of regional aircraft. The insulation in commercial aircraft segment has the largest contribution in the market. On the basis of its comprehensive research, Lucintel forecasts that the regional aircraft segment and the general aviation segment are expected to show above average growth during the forecast period.
Within the insulation market, the commercial aircraft segment will remain as the largest segment by value because of increase in demand of wide body commercial aircraft.
North America is expected to remain the largest market due to the growth in aircraft deliveries and increasing demand for light weight materials. Asia Pacific and Rest of the World are expected to grow significantly by virtue of growth in the commercial and regional aircraft markets. Growth in manufacturing of aircraft and aircraft components is expected to help in the expansion of the insulation market in APAC and ROW. Expansion in China's domestic aerospace market will raise the demand for the insulation market in this region.
For market expansion, the report suggests innovation and new product development, where the unique characteristics of aerospace insulation can be capitalized. The report further suggests the development of partnerships with customers to create win-win situations and the development of performance-driven solutions for end users. BASF, DuPont, 3M, Triumph Group Inc., Esterline, Evonik Industries, Rogers Corporation, and Zotefoams are among the major suppliers of aerospace insulation. Some companies are opting for M&A as a strategic initiative for driving growth.
Lucintel, a leading global strategic consulting and market research firm, has analyzed insulation in the global aerospace market by application, region, and aircraft type and has come up with a comprehensive research report, “Growth Opportunities for Insulation in the Global Aerospace Industry 2015-2020: Trends, Forecast, and Opportunity Analysis.” The Lucintel report serves as a spring board for the growth strategy as it provides a comprehensive data and analysis on trends, key drivers and directions. The study includes a forecast of the insulation in global aerospace market through 2020, segmented by region, aircraft, and application as follows:
To make business, investment, and strategic decisions, you need timely, useful information. This market report fulfills this core need and is an indispensable reference guide for multinational materials suppliers, product manufacturers, investors, executives, distributors, and many more that operate in this market.
Some of the features of “Growth Opportunities for Insulation in Global Aerospace Industry 2015-2020: Trends, Forecast, and Opportunity Analysis” include:
In this market, thermal and acoustic insulation are the two types of insulation. Thermal insulation is the largest segment by product, and it is expected to remain the same during the forecast period. Lucintel predicts that the demand for insulation in the regional aircraft segment is likely to experience the highest growth in the forecast period supported by rise in delivery of regional aircraft. The insulation in commercial aircraft segment has the largest contribution in the market. On the basis of its comprehensive research, Lucintel forecasts that the regional aircraft segment and the general aviation segment are expected to show above average growth during the forecast period.
Within the insulation market, the commercial aircraft segment will remain as the largest segment by value because of increase in demand of wide body commercial aircraft.
North America is expected to remain the largest market due to the growth in aircraft deliveries and increasing demand for light weight materials. Asia Pacific and Rest of the World are expected to grow significantly by virtue of growth in the commercial and regional aircraft markets. Growth in manufacturing of aircraft and aircraft components is expected to help in the expansion of the insulation market in APAC and ROW. Expansion in China's domestic aerospace market will raise the demand for the insulation market in this region.
For market expansion, the report suggests innovation and new product development, where the unique characteristics of aerospace insulation can be capitalized. The report further suggests the development of partnerships with customers to create win-win situations and the development of performance-driven solutions for end users. BASF, DuPont, 3M, Triumph Group Inc., Esterline, Evonik Industries, Rogers Corporation, and Zotefoams are among the major suppliers of aerospace insulation. Some companies are opting for M&A as a strategic initiative for driving growth.
Lucintel, a leading global strategic consulting and market research firm, has analyzed insulation in the global aerospace market by application, region, and aircraft type and has come up with a comprehensive research report, “Growth Opportunities for Insulation in the Global Aerospace Industry 2015-2020: Trends, Forecast, and Opportunity Analysis.” The Lucintel report serves as a spring board for the growth strategy as it provides a comprehensive data and analysis on trends, key drivers and directions. The study includes a forecast of the insulation in global aerospace market through 2020, segmented by region, aircraft, and application as follows:
- By aircraft type (Value $ Million from 2009 to 2020)-
- Commercial Aircraft
- Regional Aircraft
- General Aviation
- Helicopter
- Defense
- By application type (Value $ Million for 2014)-
- Thermal insulation
- Acoustic insulation
- By region (Value $ Million from 2009 to 2020)-
- North America
- Europe
- Asia Pacific
- Rest of World
To make business, investment, and strategic decisions, you need timely, useful information. This market report fulfills this core need and is an indispensable reference guide for multinational materials suppliers, product manufacturers, investors, executives, distributors, and many more that operate in this market.
Some of the features of “Growth Opportunities for Insulation in Global Aerospace Industry 2015-2020: Trends, Forecast, and Opportunity Analysis” include:
- Market size estimates: Insulation in Global Aerospace Industry size estimation in terms of value ($Million).
- Trend and forecast analysis: Insulation in Global Aerospace Industry trend (2009-2014) and forecast (2015-2020) by regions and by segments.
- Segmentation analysis: Insulation in Global Aerospace Industry by Aircraft Type such as Commercial Aviation, Regional Aviation, General Aviation, Helicopter, Defense Aircraft.
- Regional analysis: Insulation in Global aerospace industry breakdown by key regions such as North America, Europe, Asia Pacific, and Rest of World.
- Growth opportunities: Analysis on growth opportunities in different aircraft type and regions.
- Strategic analysis: This includes M&A, new product development, competitive landscape, and expansion strategies of insulation suppliers.
- Emerging applications: Emerging applications of global aerospace industry in various markets.
- Analysis of competitive intensity of the industry based on Porter’s Five Forces model.
1. EXECUTIVE SUMMARY
2. INSULATION IN GLOBAL AEROSPACE INDUSTRY BACKGROUND AND CHARACTERISTICS
2.1. Introduction
2.1.1. Types of Insulation
2.1.2. Insulation Usage in Different Industries
2.1.3. Major Insulation Materials
2.2. Aerospace Industry
2.3. Insulation in Global Aerospace Industry
2.3.1. Application of Insulation in Aircraft
2.3.2. Thermal Insulation in Aircraft
2.3.3. Acoustic Insulation /Soundproofing in Aircraft
2.3.4. Manufacturing Process of Insulation Products/ Systems
2.4. Supply Chain
3. MARKET TREND AND FORECAST ANALYSIS
3.1. Market Analysis 2014
3.1.1. Insulation in Global Aerospace Industry by Value
3.1.2. Insulation in Global Aerospace Industry by Aircraft Type
3.1.3. Insulation in Global Aerospace Industry by Application Type
3.1.4. Insulation in Global Aerospace Industry by Region
3.2. Market Trend 2009-2014
3.2.1. Market Trend 2009-2014
3.2.2. Macroeconomic Trends
3.2.3. Insulation in Global Aerospace Industry by Value
3.2.4. Insulation Trend in North American Aerospace Industry by Value
3.2.5. Insulation Trend in European Aerospace Industry by Value
3.2.6. Insulation Trend in APAC Aerospace Industry by Value
3.2.7. Insulation Trend in ROW Aerospace Industry by Value
3.2.8. Key Drivers and Challenges
3.4. Market Forecast 2015-2020
3.4.1. Macroeconomic Forecasts
3.4.2. Insulation in Global Aerospace Industry Forecast by Value
3.4.2. Insulation Forecast in North American Aerospace Industry by Value
3.4.3. Insulation Forecast in European Aerospace Industry by Value
3.4.4. Insulation Forecast in APAC Aerospace Market by Value
3.4.5. Insulation Forecast in ROW Aerospace Market by Value
4. COMPETITOR ANALYSIS
4.1. Product Portfolio Analysis
4.2. Market Share Analysis
4.3. Geographical Mapping of Top Players
4.4. Operational Integration
4.5. Growth Leadership Analysis
4.4. Porter's Five Forces Analysis for Insulation in Global Aerospace Industry
5. GROWTH OPPORTUNITY AND STRATEGIC ANALYSIS
5.1. Growth Opportunities Analysis
5.1.1. Growth Opportunities for Insulation in Global Aerospace Industry by Region
5.1.2. Growth Opportunity by Aircraft Type
5.2. Strategic Analysis
5.2.1. Innovations and New Product Development
5.3. Expansion Strategy
5.4. Product-Market Growth Matrix for Insulation in Global Aerospace Industry
5.5. Mergers and Acquisitions for Insulation in Global Aerosapce Industry
6. COMPANY PROFILES OF LEADING PLAYERS
7. CUSTOMER ANALYSIS
7.1. Customers in Different Segments
7.2. Customer's Geographic Reach
7.3. Major Customer Profiles
DISCLAIMER
COPYRIGHT
ABBREVIATIONS AND TECHNICAL UNITS
ABOUT US
LIST OF FIGURES
CHAPTER 2. INSULATION IN GLOBAL AEROSPACE INDUSTRY BACKGROUND AND CHARACTERISTICS
Figure 2.1: Classification of aerospace industry according to aircraft type
Figure 2.2: Benefits of insulation in global aerospace industry
Figure 2.3 Application of insulation in aircraft structure
Figure 2.4: Fire protective insulation blanket near bottom half of the fuselage
Figure 2.5: Turbine blade
Figure 2.6: Insulation blanket in thrust reverser
Figure 2.7: Layout of insulation in aircraft door
Figure 2.8: First layer damper strips and second layer acoustic shield/barrier
Figure 2.9: Noise, vibration & heat effecting aircraft cabin
Figure 2.10: Layout of aircraft body panel damper
Figure 2.11: Insulated galley cart
Figure 2.12: Thermal and acoustical sidewall panels installed in cargo area of aircraft
Figure 2.13: Auxiliary power unit (APU)
Figure 2.14: Insulation installed in aircraft floor
Figure 2.15: Acoustic insulation shield and stripes
Figure 2.16: Insulation blanket in aircraft window
Figure 2.17: Aircraft cargo area
Figure 2.18: Heat shield and damper installed in the interior body panels of aircraft
Figure 2.19: Insulation blanket
Figure 2.20: Insulation tape
Figure 2.21: Thermal/ acoustic liner layout
Figure 2.22: Fiber insulation mats
Figure 2.23: Soundproofing mat with foam backing
Figure 2.24: Polydamp® mass fabrics (lightweight acoustic barriers)
Figure 2.25: Soundproofing foam
Figure 2.26: Stage One - extrusion and crosslinking
Figure 2.27: Stage Two - impregnation with nitrogen gas
Figure 2.28: Stage Three - expansion in low pressure autoclave
Figure 2.29: Insulation in global aerospace industry supply chain
CHAPTER 3. MARKET TREND AND FORECAST ANALYSIS
Figure 3.1: Insulation distribution (%) in global aerospace industry ($ million) by aircraft type in 2014
Figure 3.2: Insulation in global aerospace industry ($ million) by aircraft type in 2014
Figure 3.3: Insulation distribution (%) in global aerospace industry ($ million) by application type in 2014
Figure 3.4: Insulation in global aerospace industry ($ million) by application type in 2014
Figure 3.5: Insulation distribution (%) in global aerospace industry ($ million) by region in 2014
Figure 3.6: Insulation in global aerospace industry ($ million) by region in 2013
Figure 3.7: Global GDP growth rate trend
Figure 3.8: Global air passenger traffic growth rate trend
Figure 3.9: Trend in aircraft deliveries for Boeing and Airbus 2009-2014
Figure 3.10: External forces shaping insulation in aerospace industry
Figure 3.11: Insulation growth trend in global aerospace industry ($M) (2009-2014)
Figure 3.12: Insulation growth trend ($M) in global aerospace industry by aircraft type (2009-2014)
Figure 3.13: CAGR for insulation in global aerospace industry by aircraft type (2009-2014)
Figure 3.14: Insulation growth trend in North American aerospace industry ($M) (2009-2014)
Figure 3.15: Insulation growth trend in European aerospace industry ($M) (2009-2014)
Figure 3.16: Insulation growth trend in APAC aerospace industry ($M) (2009-2014)
Figure 3.17: Insulation Growth trend in ROW aerospace industry ($M) (2009-2014)
Figure 3.18: Drivers and challenges for insulation in aerospace industry
Figure 3.19: Global GDP growth rate forecast
Figure 3.20: Forecast in aircraft deliveries for Boeing and Airbus 2014-2020
Figure 3.21: Insulation forecast in global aerospace industry ($ Million) (2015-2020)
Figure 3.22: Insulation growth forecast ($ Million) in global aerospace industry by aircraft type (2015-2020)
Figure 3.23: Insulation growth forecast in North American aerospace industry ($ Million) 2015-2020
Figure 3.24: Insulation growth forecast in European aerospace industry ($ Million) 2015-2020
Figure 3.25: Insulation growth forecast in APAC aerospace industry ($ Million) 2015-2020
Figure 3.26: Insulation growth forecast in ROW aerospace industry ($ Million) 2015-2020
CHAPTER 4. COMPETITOR ANALYSIS
Figure 4.1: Insulation in the global aerospace industry share by major players 2014
Figure 4.2: Insulation in global aerospace industry - top five players’ market share in terms of $ value in 2014
Figure 4.3: geographical mapping of top players of insulation in global aerospace industry
Figure 4.4: Market coverage of insulation manufacturers in global aerospace industry
Figure 4.5: Growth leadership matrix for insulation in global aerospace industry
Figure 4.6: Porter’s five forces market analysis for insulation in global aerospace industry
CHAPTER 5. GROWTH OPPORTUNITY AND STRATEGIC ANALYSIS
Figure 5.1: Growth opportunities for insulation in global aerospace industry by region 2015-2020
Figure 5.2: Growth opportunities for insulation in global aerospace industry by aircraft type 2015-2020
Figure 5.3: Expansion of insulation materials by major players
Figure 5.4: Product- market strategy for insulation in global aerospace industry
CHAPTER 7. CUSTOMER ANALYSIS
Figure 7.1: Geographical footprint of customers of insulation in global aerospace industry
2. INSULATION IN GLOBAL AEROSPACE INDUSTRY BACKGROUND AND CHARACTERISTICS
2.1. Introduction
2.1.1. Types of Insulation
2.1.2. Insulation Usage in Different Industries
2.1.3. Major Insulation Materials
2.2. Aerospace Industry
2.3. Insulation in Global Aerospace Industry
2.3.1. Application of Insulation in Aircraft
2.3.2. Thermal Insulation in Aircraft
2.3.3. Acoustic Insulation /Soundproofing in Aircraft
2.3.4. Manufacturing Process of Insulation Products/ Systems
2.4. Supply Chain
3. MARKET TREND AND FORECAST ANALYSIS
3.1. Market Analysis 2014
3.1.1. Insulation in Global Aerospace Industry by Value
3.1.2. Insulation in Global Aerospace Industry by Aircraft Type
3.1.3. Insulation in Global Aerospace Industry by Application Type
3.1.4. Insulation in Global Aerospace Industry by Region
3.2. Market Trend 2009-2014
3.2.1. Market Trend 2009-2014
3.2.2. Macroeconomic Trends
3.2.3. Insulation in Global Aerospace Industry by Value
3.2.4. Insulation Trend in North American Aerospace Industry by Value
3.2.5. Insulation Trend in European Aerospace Industry by Value
3.2.6. Insulation Trend in APAC Aerospace Industry by Value
3.2.7. Insulation Trend in ROW Aerospace Industry by Value
3.2.8. Key Drivers and Challenges
3.4. Market Forecast 2015-2020
3.4.1. Macroeconomic Forecasts
3.4.2. Insulation in Global Aerospace Industry Forecast by Value
3.4.2. Insulation Forecast in North American Aerospace Industry by Value
3.4.3. Insulation Forecast in European Aerospace Industry by Value
3.4.4. Insulation Forecast in APAC Aerospace Market by Value
3.4.5. Insulation Forecast in ROW Aerospace Market by Value
4. COMPETITOR ANALYSIS
4.1. Product Portfolio Analysis
4.2. Market Share Analysis
4.3. Geographical Mapping of Top Players
4.4. Operational Integration
4.5. Growth Leadership Analysis
4.4. Porter's Five Forces Analysis for Insulation in Global Aerospace Industry
5. GROWTH OPPORTUNITY AND STRATEGIC ANALYSIS
5.1. Growth Opportunities Analysis
5.1.1. Growth Opportunities for Insulation in Global Aerospace Industry by Region
5.1.2. Growth Opportunity by Aircraft Type
5.2. Strategic Analysis
5.2.1. Innovations and New Product Development
5.3. Expansion Strategy
5.4. Product-Market Growth Matrix for Insulation in Global Aerospace Industry
5.5. Mergers and Acquisitions for Insulation in Global Aerosapce Industry
6. COMPANY PROFILES OF LEADING PLAYERS
7. CUSTOMER ANALYSIS
7.1. Customers in Different Segments
7.2. Customer's Geographic Reach
7.3. Major Customer Profiles
DISCLAIMER
COPYRIGHT
ABBREVIATIONS AND TECHNICAL UNITS
ABOUT US
LIST OF FIGURES
CHAPTER 2. INSULATION IN GLOBAL AEROSPACE INDUSTRY BACKGROUND AND CHARACTERISTICS
Figure 2.1: Classification of aerospace industry according to aircraft type
Figure 2.2: Benefits of insulation in global aerospace industry
Figure 2.3 Application of insulation in aircraft structure
Figure 2.4: Fire protective insulation blanket near bottom half of the fuselage
Figure 2.5: Turbine blade
Figure 2.6: Insulation blanket in thrust reverser
Figure 2.7: Layout of insulation in aircraft door
Figure 2.8: First layer damper strips and second layer acoustic shield/barrier
Figure 2.9: Noise, vibration & heat effecting aircraft cabin
Figure 2.10: Layout of aircraft body panel damper
Figure 2.11: Insulated galley cart
Figure 2.12: Thermal and acoustical sidewall panels installed in cargo area of aircraft
Figure 2.13: Auxiliary power unit (APU)
Figure 2.14: Insulation installed in aircraft floor
Figure 2.15: Acoustic insulation shield and stripes
Figure 2.16: Insulation blanket in aircraft window
Figure 2.17: Aircraft cargo area
Figure 2.18: Heat shield and damper installed in the interior body panels of aircraft
Figure 2.19: Insulation blanket
Figure 2.20: Insulation tape
Figure 2.21: Thermal/ acoustic liner layout
Figure 2.22: Fiber insulation mats
Figure 2.23: Soundproofing mat with foam backing
Figure 2.24: Polydamp® mass fabrics (lightweight acoustic barriers)
Figure 2.25: Soundproofing foam
Figure 2.26: Stage One - extrusion and crosslinking
Figure 2.27: Stage Two - impregnation with nitrogen gas
Figure 2.28: Stage Three - expansion in low pressure autoclave
Figure 2.29: Insulation in global aerospace industry supply chain
CHAPTER 3. MARKET TREND AND FORECAST ANALYSIS
Figure 3.1: Insulation distribution (%) in global aerospace industry ($ million) by aircraft type in 2014
Figure 3.2: Insulation in global aerospace industry ($ million) by aircraft type in 2014
Figure 3.3: Insulation distribution (%) in global aerospace industry ($ million) by application type in 2014
Figure 3.4: Insulation in global aerospace industry ($ million) by application type in 2014
Figure 3.5: Insulation distribution (%) in global aerospace industry ($ million) by region in 2014
Figure 3.6: Insulation in global aerospace industry ($ million) by region in 2013
Figure 3.7: Global GDP growth rate trend
Figure 3.8: Global air passenger traffic growth rate trend
Figure 3.9: Trend in aircraft deliveries for Boeing and Airbus 2009-2014
Figure 3.10: External forces shaping insulation in aerospace industry
Figure 3.11: Insulation growth trend in global aerospace industry ($M) (2009-2014)
Figure 3.12: Insulation growth trend ($M) in global aerospace industry by aircraft type (2009-2014)
Figure 3.13: CAGR for insulation in global aerospace industry by aircraft type (2009-2014)
Figure 3.14: Insulation growth trend in North American aerospace industry ($M) (2009-2014)
Figure 3.15: Insulation growth trend in European aerospace industry ($M) (2009-2014)
Figure 3.16: Insulation growth trend in APAC aerospace industry ($M) (2009-2014)
Figure 3.17: Insulation Growth trend in ROW aerospace industry ($M) (2009-2014)
Figure 3.18: Drivers and challenges for insulation in aerospace industry
Figure 3.19: Global GDP growth rate forecast
Figure 3.20: Forecast in aircraft deliveries for Boeing and Airbus 2014-2020
Figure 3.21: Insulation forecast in global aerospace industry ($ Million) (2015-2020)
Figure 3.22: Insulation growth forecast ($ Million) in global aerospace industry by aircraft type (2015-2020)
Figure 3.23: Insulation growth forecast in North American aerospace industry ($ Million) 2015-2020
Figure 3.24: Insulation growth forecast in European aerospace industry ($ Million) 2015-2020
Figure 3.25: Insulation growth forecast in APAC aerospace industry ($ Million) 2015-2020
Figure 3.26: Insulation growth forecast in ROW aerospace industry ($ Million) 2015-2020
CHAPTER 4. COMPETITOR ANALYSIS
Figure 4.1: Insulation in the global aerospace industry share by major players 2014
Figure 4.2: Insulation in global aerospace industry - top five players’ market share in terms of $ value in 2014
Figure 4.3: geographical mapping of top players of insulation in global aerospace industry
Figure 4.4: Market coverage of insulation manufacturers in global aerospace industry
Figure 4.5: Growth leadership matrix for insulation in global aerospace industry
Figure 4.6: Porter’s five forces market analysis for insulation in global aerospace industry
CHAPTER 5. GROWTH OPPORTUNITY AND STRATEGIC ANALYSIS
Figure 5.1: Growth opportunities for insulation in global aerospace industry by region 2015-2020
Figure 5.2: Growth opportunities for insulation in global aerospace industry by aircraft type 2015-2020
Figure 5.3: Expansion of insulation materials by major players
Figure 5.4: Product- market strategy for insulation in global aerospace industry
CHAPTER 7. CUSTOMER ANALYSIS
Figure 7.1: Geographical footprint of customers of insulation in global aerospace industry
LIST OF TABLES
CHAPTER 1. EXECUTIVE SUMMARY
Table 1.1: Insulation in global aerospace industry parameters and attributes 2014
CHAPTER 2. INSULATION IN GLOBAL AEROSPACE INDUSTRY BACKGROUND AND CHARACTERISTICS
Table 2.1 Low temperature insulation material, form, and characteristics
Table 2.2 Intermediate temperature insulation material, form, and characteristics
Table 2.3 High temperature insulation type, form, and characteristics
Table 2.4: Application of insulation in aerospace industry
CHAPTER 3. MARKET TREND AND FORECAST ANALYSIS
Table 3.1: Market Trends (2009-2014) of insulation in global aerospace industry
Table 3.2: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.3: Market size and 2013-2014 growth rates for insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.4: Market size and annual growth rates during last five years (2009-2014) for insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.5: Market trends (2009-2014) of insulation in North American aerospace industry
Table 3.6: Average growth rates for one, three, and five years for insulation in North American aerospace industry in terms of $ values
Table 3.7: Market trends (2009-2014) of insulation in European aerospace industry
Table 3.8: Average growth rates for one, three, and five years for insulation in European aerospace industry in terms of $ values
Table 3.9: Market trends (2009-2014) of insulation in APAC aerospace industry
Table 3.10: Average growth rates for one, three, and five years for insulation in APAC aerospace industry in terms of $ values
Table 3.11: Market trends (2009-2014) of insulation in ROW aerospace industry
Table 3.12: Average growth rates for one, three, and five years for insulation in ROW aerospace industry in terms of $ values
Table 3.13: Market forecast (2015-2020) of insulation in global aerospace industry
Table 3.14: Average growth rates for one, three, and five years for insulation in the global aerospace industry in terms of $ values
Table 3.15: Market size and 2013-2014 growth rates of insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.16: Market size and annual growth rates during next five years (2015-2020) for insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.17: Market forecast (2015-2020) of insulation in North American aerospace industry
Table 3.18: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.19: Market forecast (2015-2020) of insulation in European aerospace industry
Table 3.20: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.21: Market forecast (2015-2020) of insulation in APAC aerospace industry
Table 3.22: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.23: Market forecast (2015-2020) of insulation in ROW aerospace industry
Table 3.24 Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
CHAPTER 4. COMPETITOR ANALYSIS
Table 4.1: Market portfolios of major players by aircraft type
Table 4.2: Market portfolios of major players by application
Table 4.3: Rankings of suppliers based on insulation revenue in global aerospace industry
Table 4.4: Presence of insulation manufacturers across the value chain
CHAPTER 7. CUSTOMER ANALYSIS
Table 7.1 Major customers/end users of insulation in global aerospace industry for different applications
CHAPTER 1. EXECUTIVE SUMMARY
Table 1.1: Insulation in global aerospace industry parameters and attributes 2014
CHAPTER 2. INSULATION IN GLOBAL AEROSPACE INDUSTRY BACKGROUND AND CHARACTERISTICS
Table 2.1 Low temperature insulation material, form, and characteristics
Table 2.2 Intermediate temperature insulation material, form, and characteristics
Table 2.3 High temperature insulation type, form, and characteristics
Table 2.4: Application of insulation in aerospace industry
CHAPTER 3. MARKET TREND AND FORECAST ANALYSIS
Table 3.1: Market Trends (2009-2014) of insulation in global aerospace industry
Table 3.2: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.3: Market size and 2013-2014 growth rates for insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.4: Market size and annual growth rates during last five years (2009-2014) for insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.5: Market trends (2009-2014) of insulation in North American aerospace industry
Table 3.6: Average growth rates for one, three, and five years for insulation in North American aerospace industry in terms of $ values
Table 3.7: Market trends (2009-2014) of insulation in European aerospace industry
Table 3.8: Average growth rates for one, three, and five years for insulation in European aerospace industry in terms of $ values
Table 3.9: Market trends (2009-2014) of insulation in APAC aerospace industry
Table 3.10: Average growth rates for one, three, and five years for insulation in APAC aerospace industry in terms of $ values
Table 3.11: Market trends (2009-2014) of insulation in ROW aerospace industry
Table 3.12: Average growth rates for one, three, and five years for insulation in ROW aerospace industry in terms of $ values
Table 3.13: Market forecast (2015-2020) of insulation in global aerospace industry
Table 3.14: Average growth rates for one, three, and five years for insulation in the global aerospace industry in terms of $ values
Table 3.15: Market size and 2013-2014 growth rates of insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.16: Market size and annual growth rates during next five years (2015-2020) for insulation in global aerospace industry by aircraft type in terms of $ value
Table 3.17: Market forecast (2015-2020) of insulation in North American aerospace industry
Table 3.18: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.19: Market forecast (2015-2020) of insulation in European aerospace industry
Table 3.20: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.21: Market forecast (2015-2020) of insulation in APAC aerospace industry
Table 3.22: Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
Table 3.23: Market forecast (2015-2020) of insulation in ROW aerospace industry
Table 3.24 Average growth rates for one, three, and five years for insulation in global aerospace industry in terms of $ values
CHAPTER 4. COMPETITOR ANALYSIS
Table 4.1: Market portfolios of major players by aircraft type
Table 4.2: Market portfolios of major players by application
Table 4.3: Rankings of suppliers based on insulation revenue in global aerospace industry
Table 4.4: Presence of insulation manufacturers across the value chain
CHAPTER 7. CUSTOMER ANALYSIS
Table 7.1 Major customers/end users of insulation in global aerospace industry for different applications
