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市場調查報告書

航太產業的隔音和隔熱材料的全球市場 (2015-2020年):市場趨勢、市場預測、市場機會分析

Growth Opportunities for Insulation in Global Aerospace Industry 2015-2020: Trends, Forecast, and Opportunity Analysis

出版商 Lucintel 商品編碼 333655
出版日期 內容資訊 英文 153 Pages
商品交期: 最快1-2個工作天內
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航太產業的隔音和隔熱材料的全球市場 (2015-2020年):市場趨勢、市場預測、市場機會分析 Growth Opportunities for Insulation in Global Aerospace Industry 2015-2020: Trends, Forecast, and Opportunity Analysis
出版日期: 2015年06月23日 內容資訊: 英文 153 Pages
簡介

本報告提供全球航太產業的隔音和隔熱材料的市場相關調查、航太產業的隔音和隔熱材料概要、特徵、全球及各地區的宏觀經濟趨勢及預測、全球及各地區的航太產業的隔音和隔熱材料的市場規模的變化與預測、市場成長的主要的推進因素與課題、競爭環境與主要企業的市場佔有率、市場策略及成長機會分析,以及主要企業的簡介等彙整。

第1章 摘要整理

第2章 全球航太產業的隔音和隔熱材料的市場:背景、特徵

  • 簡介
    • 隔音和隔熱材料的類型
    • 在各種產業的隔音和隔熱材料的利用
    • 主要的隔音和隔熱材料材料
  • 航太產業
  • 全球航太產業的隔音和隔熱材料
    • 在飛機的隔音和隔熱材料的用途
    • 在飛機的隔熱材料
    • 在飛機的隔音、隔音材料
    • 隔音和隔熱材料的製造流程
  • 供應鏈

第3章 市場趨勢、預測分析

  • 目前市場分析
    • 全球市場規模
      • 各飛機類型
      • 各用途
      • 各地區
  • 到現在為止的市場轉變
    • 市場轉變
    • 宏觀經濟趨勢
    • 全球市場規模變化
    • 北美市場規模變化
    • 歐洲市場規模變化
    • 亞太地區市場規模變化
    • 其他地區市場規模變化
    • 主要的成長推進因素與課題
  • 市場預測
    • 宏觀經濟預測
    • 全球市場規模的預測
    • 北美市場規模的預測
    • 歐洲市場規模的預測
    • 亞太地區市場規模的預測
    • 其他地區市場規模的預測

第4章 競爭分析

  • 產品系列分析
  • 市場佔有率分析
  • 主要企業據點的製圖
  • 營運整合
  • 成長的龍頭分析
  • 波特的五力分析

第5章 成長機會及策略分析

  • 成長機會分析
    • 各地區
    • 各飛機類型
  • 策略分析
    • 技術創新和新產品的開發
  • 擴張策略
  • 產品、市場成長矩陣
  • M&A

第6章 主要企業簡介

第7章 客戶分析

  • 各種部門的客戶
  • 客戶的地區有效半徑
  • 主要客戶簡介

圖表

目錄

In this market, glass cellular, glass fiber, elastomeric foam, polystyrene (extruded, expanded), polyurethane, polyisocyanurate and other materials are used for insulation. Lucintel adds that demand for these materials is expected to witness growth in the forecast period supported by aerospace insulation suppliers' efforts to construct systems that are lightweight. A Lucintel study indicates that among the various insulations, thermal insulation was the largest segment in 2014 due to its characteristics of energy saving and qualities of reducing heat loss/heat gain and running costs. As per the study the commercial aircraft segment is expected to emerge as the largest in terms of market size.

The regional aircraft segment is projected to witness an above average growth due to a small base phenomenons and a rise in delivery of regional aircrafts will indirectly drive growth for insulation in this segment. APAC and ROW are expected to have higher growth than other regions, with increasing aircraft parts and component manufacturing. In 2016, China is expected to launch Comac C919, manufactured by Commercial Aircraft Corporation of China, which will be the first commercial aircraft of this region. It is expected that it will drive manufacturing activity in this region, ultimately leading towards the growth of insulation consumption.

For market expansion, the report suggests innovation and new product development to create win-win situations and the development of low-cost solutions for the end user. Emerging trends that have a direct impact on the dynamics of the industry include the use of metallic, composites, and hybrid materials to develop engineered insulation systems that are lightweight. BASF, DuPont, 3M, Triumph Group Inc., Esterline, Evonik Industries, Rogers Corporation, Zotefoams are some of the major suppliers of the aerospace insulation. Some companies are opting for M&A and expansions in emerging markets 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:

Insulation in the global aerospace industry segmented by region:

  • North America
  • Europe
  • Asia Pacific
  • Rest of the World

Insulation in the global aerospace industry segmented by aircraft type:

  • Commercial Aircraft
  • Regional Aircraft
  • General Aviation
  • Helicopter
  • Defense

Insulation in the global aerospace industry segmented by application type for 2014:

  • Thermal insulation
  • Acoustic insulation

This unique report from Lucintel will provide you with valuable information, insights, and tools needed to identify new growth opportunities and operate your business successfully in this market. This report will save hundreds of hours of your own personal research time and will significantly benefit you in expanding your business in this market. In today's stringent economy, you need every advantage that you can find. 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.

Table of Contents

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 aerospace 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

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
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