Welcome!

News Feed Item

Global Prepreg Market 2013-2018: Trends, Forecast, and Opportunity Analysis


 

NEW YORK, Jan. 23, 2014 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:

Global Prepreg Market 2013-2018: Trends, Forecast, and Opportunity Analysis
http://www.reportlinker.com/p01974551/Global-Prepreg-Market-2013-2018-Trends-Forecast-and-Opportunity-Analysis.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Fiber

Background:

The global prepreg market is expected to witness robust growth during 2013-2018 and reach $6.1 billion by 2018. This growth in the prepreg sector can be attributed to the rising cost of raw materials that increases the need to pass a portion of these costs to end products. High growth for applications of prepreg materials will probably take place in the near future, particularly in aerospace, automotive, and civil engineering.
Lucintel, a leading global management consulting and market research firm, has conducted a competitive analysis on the global prepreg market and its usage, and presents its findings in "Global Prepreg Market 2013-2018: Trend, Forecast and Opportunity Analysis." From the analysis presented in this report, prepreg raw material suppliers as well as producers will recognize that valuable opportunities exist in the global prepreg industry due to impressive trends in demand quantity and growth, based on the various application markets and regional factors.

Lucintel analyzes the challenges faced by the players in the prepreg market. The cost of prepreg is relatively higher than its competitors, such as aluminum; hence it is difficult to replace aluminum parts in all aircraft applications. Damage identification is difficult in case of prepreg. If a part is damaged, it is not easy to get it repaired.
The report also discusses the major drivers of the market. The biggest driver for the growth of prepreg in the aerospace market is its usage in the new Boeing 787 and Airbus 380 aircraft. Boeing 787 is the fastest selling passenger aircraft ever. This unprecedented success has much to do with the plane's composite-intensive design, which brings several benefits. A composite structure also results in less non-routine maintenance. The 777's floor structure is all composites and highlights the advantages of this material when applied in a harsh environment.
It is important for every player serving in the global prepreg market to be aware of the drivers, challenges, and emerging trends. The report identifies the emerging trends in prepreg market which impact the industry.
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.


Features of This Report:

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 "Global Prepreg Market 2013-2018: Trends, Forecast and Opportunity Analysis" include:
- Porter's Five Forces analysis for global prepreg market
- Global prepreg market intelligence with special emphasis on wind energy, aerospace, sporting goods, transportation and civil engineering markets (E&E market overview excluded)
- Market size estimates in terms of volume and value shipment by type of reinforcements
- Market size estimates in terms of volume and value shipment in various prepreg market segments
- Regional Analysis: Prepreg market breakdown by key regions (e.g., North America, Europe and Asia/ROW)
- Growth trend (2007-2012) and growth forecast (2013-2018): Volume and value of shipments for various market segments such as wind energy, commercial aerospace, defense, general aviation, space/satellite, marine, transportation, civil engineering and sporting goods
- Growth opportunities and emerging prepreg applications in tidal energy, medical, high performance auto, yachting, bicycle, light jet and UAV among others
- Growth opportunities and emerging trends in global prepreg market


Who Can Benefit From This Report?

This study is intended for senior level executives, sales, marketing and business development professionals at various nodes of value chain of this market. This multi-client market study from Lucintel is used by small to multi-national Fortune 500 companies and utilized for a variety of reasons as follows.
- Business development
- Strategic planning
- Business presentation
- Determination of market size and trend
- Competitive analysis
- Resource and inventory management
- Budgeting
- Investment decisions
1. Executive Summary
2. Prepreg Industry Background and Classifications
2.1: Introduction
2.1.1: Industry classification
2.1.2: Markets served
2.1.3: Supply chain
2.2: Porter's Five Forces analysis
3. Market Analysis
3.1: Current market analysis 2012
3.1.1: Global prepreg market by value and by volume
3.1.2: Regional prepreg market by value and by volume
3.2: Market trend 2007-2012
3.2.1: Macro-economy trends
3.2.2: Global prepreg market by value and by volume
3.2.3: North America prepreg market trend by value and by volume
3.2.4: Europe prepreg market trend by value and by volume
3.2.5: Apac prepreg market trend by value and by volume
3.2.6: Industry drivers and challenges
3.3: Market forecast 2013–2018
3.3.1: Macro-economy forecasts
3.3.2: Global market forecast by value and by volume
3.3.3: North America market forecast by value and by volume
3.3.4: Europe market forecast by value and by volume
3.3.5: Asia-Pacific market forecast by value and by volume
4. Cost Structure and Profitability Analysis
4.1: Global prepreg market profitability analysis
4.2: Cost structure of global prepreg market: 2007-2012
4.3: Regional trend: cost structure for global prepreg market
5. Competitive Landscape and Growth Opportunities Analysis
5.1: Product portfolio analysis
5.2: Market share analysis
5.3; Growth leadership analysis
5.4: Growth opportunities analysis
6. Industry Strategic Assessment
6.1: Emerging trends in prepreg industry
6.2: Innovations and new product launches in prepreg industry
6.3; Mergers and acquisitions in prepreg industry
7. Company Profiles For Leading Players


List of Figures


Chapter 2. Prepreg Industry Background and Classifications
Figure 2.1: Schematic of thermoplastic tape processing
Figure 2.2: Prepreg making machine (source: century design)
Figure 2.3: Prepreg sheet
Figure 2.4: Classification of global prepreg market
Figure 2.5: Classification of aerospace market according to aircraft type
Figure 2.6: Competing materials (aluminum, steel, titanium, composites and other) Consumption (%) in commercial aerospace industry
Figure 2.7: Production of Section 44 of the Boeing 787 fuselage by alenia aeronautica using automated fiber placement process. (source: Ingersoll machine tools)
Figure 2.8: Forward fuselage section of Boeing 787 made by spirit aerosystems (source: Electroimpact)
Figure 2.9: Fiber placement process for making of aircraft components (Source: Electroimpact)
Figure 2.10: J-nose of Airbus 380's wing made with thermoplastic prepreg (Source: Stork Fokker)
Figure 2.11: General aviation aircraft – citation Columbus (Source: Cessna)
Figure 2.12: Lockheed Martin's F-35 (Joint Strike Fighter) plane (Source: Lockheed Martin)
Figure 2.13: Airbus A 400M military airlifter (Source: Airbus)
Figure 2.14: Space applications (Source: ATK)
Figure 2.15: The backplane configuration interfaces with the 18 planar hexagonal sections of the primary mirror, shown here in a fully functional, 1/6th-scale model (Source: NASA)
Figure 2.16: Evolution of composites applications in commercial aircraft
Figure 2.17: High speed rail
Figure 2.18: Racing car
Figure 2.19: Production of corvette hood using autoclave process (source: Maclean quality composites)
Figure 2.20: Carbon fiber hood outer panels for corvette (Source: MacLean Quality Composites)
Figure 2.21: Column wrapping using prepreg system
Figure 2.22: Automated column wrapping equipment (left) and curing system (right) (source: Xxsys Technologies)
Figure 2.23: Application of prepreg in boat hull (Source: Gurit)
Figure 2.24: Golf shaft application for prepreg
Figure 2.25: Fishing rod application for prepreg
Figure 2.26: Bicycle frame made with carbon fiber prepreg using roll wrapping process (source: maclean quality composites)
Figure 2.27: Hand lay-up of prepreg to make tennis racket
Figure 2.28: Wind turbine – Vestas 2.0 MW turbine V90 (Source: Vestas)
Figure 2.29: Carbon fiber table top for diagnostic imaging (Source: Vermont Composites)
Figure 2.30: Emphasis on cost and performance by various industries
Figure 2.31: Supply chain of global prepreg market
Figure 2.32: Porter's Five Force industry analysis for global prepreg market
Chapter 3. Market Analysis
Figure 3.1: Global prepreg demand ($ M) as compare to total composite materials demand in 2012
Figure 3.2: Global prepreg demand (M pounds) as compare to total composite materials demand in 2012
Figure 3.3: Global prepreg market distribution ($ M, %) by major market segments in 2012
Figure 3.4: Global prepreg market ($ M) distribution by end use applications in 2012
Figure 3.5: Global prepreg shipments ($ M) by applications in 2012
Figure 3.6: Global prepreg market (M pounds) distribution by end use applications in 2012
Figure 3.7: Global prepreg shipments (M pounds) by applications in 2012
Figure 3.8: Global prepreg market ($ M, %) by type of fiber in 2012
Figure 3.9: Global prepreg market (M pounds, %) by type of fiber in 2012
Figure 3.10: Global prepreg market ($ M) distribution by region in 2012
Figure 3.11: Global prepreg market (M pounds) distribution by region in 2012
Figure 3.12: Wind energy cumulative capacity installation trend (1990-2012)
Figure 3.13: Year over year new turbine installations trend (1990-2012)
Figure 3.14: Growth trend of cumulative wind energy capacity installation: 1990-2012
Figure 3.15: Growth trend of new wind energy capacity installation: 2000-2012
Figure 3.16: Trend of new aircraft orders for Boeing and airbus: 2006-2012
Figure 3.17: Trend in aircraft deliveries for Boeing and airbus: 2006-2012
Figure 3.18: Growth trend in world passenger traffic (by billion revenue passenger kilometers): 2004-2012 (source: Boeing)
Figure 3.19: Global automotive production trend: 2006-2012 (source: international organization of motor vehicle manufacturers)
Figure 3.20: Global automotive sales trend: 2006-2012 (source: international organization of motor vehicle manufacturers)
Figure 3.21: Global prepreg market growth trends (2007-2012)
Figure 3.22: Global prepreg market volume distribution (%) by market segments in 2007
Figure 3.23: Global prepreg market (M pounds) by market segments in 2007
Figure 3.24: Global prepreg market volume distribution (%) by market segments in 2012
Figure 3.25: Global Prepreg market (M Pounds) by market segments in 2012
Figure 3.26: Year over year growth rate in various segments of the global prepreg market by volume during 2011-2012
Figure 3.27: CAGR of various segments of the global prepreg market by volume: 2007-2012
Figure 3.28: Global prepreg market segments distribution (%) by value in 2007
Figure 3.29: Global prepreg market ($ M) by market segments in 2007
Figure 3.30: Global prepreg market segments distribution (%) by value in 2012
Figure 3.31: Global prepreg market ($ M) by market segments in 2012
Figure 3.32: Year over year growth rate in various segments of the global prepreg market by value during 2011-2012
Figure 3.33: CAGR of various segments of the global prepreg market by value: 2007-2012
Figure 3.34: Global prepreg market (M Pounds) by type of reinforcement in 2007
Figure 3.35: Global prepreg market (M Pounds) by type of reinforcement 2012
Figure 3.36: Average annual growth rates (M pounds) in various prepregs in last 5 years (2007-2012)
Figure 3.37: Average annual growth rates (M pounds) in various prepregs in last year (2011-2012)
Figure 3.38: North American prepreg market trend by value ($ M) 2007-2012
Figure 3.39: North American prepreg market trend by volume (M Pounds) 2007-2012
Figure 3.40: Year-over-Year growth in North America prepreg market 2011-2012
Figure 3.41: CAGR in North America prepreg market 2007-2012
Figure 3.42: European prepreg market trend by value ($ M) 2007-2012
Figure 3.43: European prepreg market trend by volume (M Pounds) 2007-2012
Figure 3.44: Year-over-Year growth in European prepreg market 2011-2012
Figure 3.45: CAGR in European prepreg market 2007-2012
Figure 3.46: Asia and Rest of the world prepreg market trend by value ($ M) 2007-2012
Figure 3.47: Asia and Rest of the world prepreg market trend by volume (M Pounds) 2007-2012
Figure 3.48: Year-over-year growth in Asia and Rest of the world prepreg market 2011-2012
Figure 3.49: CAGR in Asia and Rest of the world prepreg market 2007-2012
Figure 3.50: Growth drivers for prepreg in aerospace market
Figure 3.51: Trend and forecast in usage of composites in aerospace market. (the data presented is the percentage of structural weight)
Figure 3.52: Trend and forecast in usage of types of material in aerospace market
Figure 3.53: Challenges in prepreg adoption in aerospace market
Figure 3.54: Growth drivers for prepreg in wind energy market
Figure 3.55: Trend and forecast in turbine capacity
Figure 3.56: Trend and forecast in blade length
Figure 3.57: Trend and forecast in blade materials
Figure 3.58: Challenges in adoption of carbon fiber prepregs in wind market
Figure 3.59: Global wind energy new capacity (GW) installation forecast: 2013-2018
Figure 3.60: Average wind turbine capacity (MW) forecast 2013-2018
Figure 3.61: Average wind blade weight (Pounds) forecast 2013-2018
Figure 3.62: World passenger traffic forecast: 2011-2031
Figure 3.63: Global automotive production forecast: 2013-2018
Figure 3.64: Growth forecast in global prepreg market segments by volume (M pounds) in 2013
Figure 3.65: Average annual growth forecast in global prepreg market segments by volume (M pounds) 2013-2018
Figure 3.66: Global prepreg market volume distribution (%) by market segments in 2013
Figure 3.67: Global prepreg market volume distribution (%) by market segments in 2018
Figure 3.68: Global prepreg market value distribution (%) by market segments in 2013
Figure 3.69; Global prepreg market value distribution (%) by market segments in 2018
Figure 3.70: Forecast for North American prepreg market by volume 2013-2018
Figure 3.71: Forecast for North American prepreg market by value 2013-2018
Figure 3.72: CAGR for North American prepreg market 2013-2018
Figure 3.73: Forecast for European prepreg market by volume 2013-2018
Figure 3.74: Forecast for European prepreg market by value 2013-2018
Figure 3.75: CAGR for European prepreg market: 2013-2018
Figure 3.76: Forecast for Asia and Rest of the world prepreg market by volume: 2013-2018
Figure 3.77: Forecast for Asia and Rest of the world prepreg market by value: 2013-2018
Figure 3.78: CAGR for Asia and Rest of the world prepreg market: 2013-2018
Chapter 4. Cost Structure and Profitability Analysis
Figure 4.1: Global prepreg market profitability analysis: 2007-2012 (%)
Figure 4.2: Cost structure of global prepreg market: 2007-2012
Figure 4.3: Cost structure in North American prepreg market: 2007-2012
Figure 4.4: Cost structure in European prepreg market: 2007-2012
Figure 4.5: Cost structure in Asian/Row prepreg market: 2007-2012
Chapter 5. Competitive Landscape and Growth Opportunities Analysis
Figure 5.1: Market presence of major players of global prepreg market
Figure 5.2: Industry-Wide prepreg product map based on fiber type
Figure 5.3: Industry-Wide prepreg product map based on resin type
Figure 5.4: Market share analysis of top five players of global prepreg market: 2012
Figure 5.5: Market share in terms of $ value by top 5 suppliers in prepreg Industry in 2012
Figure 5.6: Growth leadership matrix in global prepreg market
Figure 5.7: Growth opportunity for global prepreg market 2012-2018
Figure 5.8: Carbon fiber prepreg in chassis of Toyota series race car. (Source: Rivers Carbon)
Figure 5.9: Carbon fiber bicycle rim
Figure 5.10: A photograph of bicycle made with ACG's MTM® Prepreg
Chapter 6. Industry Strategic Assessment
Figure 6.1: Emerging trends in global prepreg industry
Figure 6.2: Picture of 1.2MW SeaGen tidal system
Figure 6.3: A Photograph of skiff made with ACG's Prepreg
Figure 6.4: A photograph of Atlas Carbon Davits
Figure 6.5: A Photograph of a VTM Yacht Sunroof
Figure 6.6: A Photograph of Artificial Lower Limb Products
Figure 6.7: A Photograph of Farbio GTS Sports Car
Figure 6.8: A Photograph of Peugeot's New 308RC Z with Carbon Prepreg Roof



List of Tables


Chapter 1. Executive Summary
Table 1.1: Prepreg market parameters and attributes – materials perspective
Table 1.2: Prepreg market parameters and attributes – end product market perspective
Chapter 2. Prepreg Industry Background and Classifications
Table 2.1: Evolution of prepreg applications at airbus
Table 2.2: Aerospace structures made of prepreg
Table 2.3: Selected parts, materials and processes for the airbus A380
Table 2.4: Composites property advantages in sporting goods applications
Table 2.5: Prepreg vs competing materials and processes
Chapter 3. Market Analysis
Table 3.1: Automotive components made with autoclave process
Table 3.2: Market trends (2007-2012) in global prepreg shipment
Table 3.3: Average growth rates for 1, 3, and 5 years in the global prepreg industry in terms of $ shipment
Table 3.4: Market size and 2011-2012 growth rates in various segments of global prepreg industry in terms of value and volume shipment
Table 3.5: Market size and annual growth rates during last 5 years (2007-2012) in various market segments of global prepreg industry in terms of value and volume shipment
Table 3.6: Market trends (2007-2012) in North American prepreg shipments
Table 3.7: Market trends (2007-2012) in European prepreg shipments
Table 3.8: Market trends (2007-2012) in Asia/ROW prepreg shipments
Table 3.9: Market Size and annual growth forecasts for shipments volume during the next 5 years (2013-2018) in various market segments of the global prepreg industry (source: lucintel)
able 3.10: Market size and annual growth forecasts for shipments value during the next 5 years (2013-2018) in various market segments of the global prepreg industry (source: lucintel)
Table 3.11: Forecast prepreg growth for selected markets
Chapter 5. Competitive Landscape and Growth Opportunities Analysis
Table: 5.1: Rankings of suppliers based on prepreg revenue
Table 5.2: Ranking of leaders in industrial, aerospace and sporting goods market
Table 5.3: Growth applications for global prepreg market



To order this report: Global Prepreg Market 2013-2018: Trends, Forecast, and Opportunity Analysis
http://www.reportlinker.com/p01974551/Global-Prepreg-Market-2013-2018-Trends-Forecast-and-Opportunity-Analysis.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Fiber




__________________________
Contact Clare: [email protected]
US: (339)-368-6001
Intl: +1 339-368-6001

 

SOURCE Reportlinker

More Stories By PR Newswire

Copyright © 2007 PR Newswire. All rights reserved. Republication or redistribution of PRNewswire content is expressly prohibited without the prior written consent of PRNewswire. PRNewswire shall not be liable for any errors or delays in the content, or for any actions taken in reliance thereon.

Latest Stories
A critical component of any IoT project is what to do with all the data being generated. This data needs to be captured, processed, structured, and stored in a way to facilitate different kinds of queries. Traditional data warehouse and analytical systems are mature technologies that can be used to handle certain kinds of queries, but they are not always well suited to many problems, particularly when there is a need for real-time insights.
Choosing the right cloud for your workloads is a balancing act that can cost your organization time, money and aggravation - unless you get it right the first time. Economics, speed, performance, accessibility, administrative needs and security all play a vital role in dictating your approach to the cloud. Without knowing the right questions to ask, you could wind up paying for capacity you'll never need or underestimating the resources required to run your applications.
Enterprise networks are complex. Moreover, they were designed and deployed to meet a specific set of business requirements at a specific point in time. But, the adoption of cloud services, new business applications and intensifying security policies, among other factors, require IT organizations to continuously deploy configuration changes. Therefore, enterprises are looking for better ways to automate the management of their networks while still leveraging existing capabilities, optimizing perf...
"Software-defined storage is a big problem in this industry because so many people have different definitions as they see fit to use it," stated Peter McCallum, VP of Datacenter Solutions at FalconStor Software, in this SYS-CON.tv interview at 18th Cloud Expo, held June 7-9, 2016, at the Javits Center in New York City, NY.
The best-practices for building IoT applications with Go Code that attendees can use to build their own IoT applications. In his session at @ThingsExpo, Indraneel Mitra, Senior Solutions Architect & Technology Evangelist at Cognizant, provided valuable information and resources for both novice and experienced developers on how to get started with IoT and Golang in a day. He also provided information on how to use Intel Arduino Kit, Go Robotics API and AWS IoT stack to build an application tha...
IoT generates lots of temporal data. But how do you unlock its value? You need to discover patterns that are repeatable in vast quantities of data, understand their meaning, and implement scalable monitoring across multiple data streams in order to monetize the discoveries and insights. Motif discovery and deep learning platforms are emerging to visualize sensor data, to search for patterns and to build application that can monitor real time streams efficiently. In his session at @ThingsExpo, ...
Manufacturers are embracing the Industrial Internet the same way consumers are leveraging Fitbits – to improve overall health and wellness. Both can provide consistent measurement, visibility, and suggest performance improvements customized to help reach goals. Fitbit users can view real-time data and make adjustments to increase their activity. In his session at @ThingsExpo, Mark Bernardo Professional Services Leader, Americas, at GE Digital, discussed how leveraging the Industrial Internet a...
You think you know what’s in your data. But do you? Most organizations are now aware of the business intelligence represented by their data. Data science stands to take this to a level you never thought of – literally. The techniques of data science, when used with the capabilities of Big Data technologies, can make connections you had not yet imagined, helping you discover new insights and ask new questions of your data. In his session at @ThingsExpo, Sarbjit Sarkaria, data science team lead ...
Extracting business value from Internet of Things (IoT) data doesn’t happen overnight. There are several requirements that must be satisfied, including IoT device enablement, data analysis, real-time detection of complex events and automated orchestration of actions. Unfortunately, too many companies fall short in achieving their business goals by implementing incomplete solutions or not focusing on tangible use cases. In his general session at @ThingsExpo, Dave McCarthy, Director of Products...
WebRTC is bringing significant change to the communications landscape that will bridge the worlds of web and telephony, making the Internet the new standard for communications. Cloud9 took the road less traveled and used WebRTC to create a downloadable enterprise-grade communications platform that is changing the communication dynamic in the financial sector. In his session at @ThingsExpo, Leo Papadopoulos, CTO of Cloud9, discussed the importance of WebRTC and how it enables companies to focus...
Amazon has gradually rolled out parts of its IoT offerings in the last year, but these are just the tip of the iceberg. In addition to optimizing their back-end AWS offerings, Amazon is laying the ground work to be a major force in IoT – especially in the connected home and office. Amazon is extending its reach by building on its dominant Cloud IoT platform, its Dash Button strategy, recently announced Replenishment Services, the Echo/Alexa voice recognition control platform, the 6-7 strategic...
Aspose.Total for .NET is the most complete package of all file format APIs for .NET as offered by Aspose. It empowers developers to create, edit, render, print and convert between a wide range of popular document formats within any .NET, C#, ASP.NET and VB.NET applications. Aspose compiles all .NET APIs on a daily basis to ensure that it contains the most up to date versions of each of Aspose .NET APIs. If a new .NET API or a new version of existing APIs is released during the subscription peri...
Verizon Communications Inc. (NYSE, Nasdaq: VZ) and Yahoo! Inc. (Nasdaq: YHOO) have entered into a definitive agreement under which Verizon will acquire Yahoo's operating business for approximately $4.83 billion in cash, subject to customary closing adjustments. Yahoo informs, connects and entertains a global audience of more than 1 billion monthly active users** -- including 600 million monthly active mobile users*** through its search, communications and digital content products. Yahoo also co...
Ixia (Nasdaq: XXIA) has announced that NoviFlow Inc.has deployed IxNetwork® to validate the company’s designs and accelerate the delivery of its proven, reliable products. Based in Montréal, NoviFlow Inc. supports network carriers, hyperscale data center operators, and enterprises seeking greater network control and flexibility, network scalability, and the capacity to handle extremely large numbers of flows, while maintaining maximum network performance. To meet these requirements, NoviFlow in...
As companies gain momentum, the need to maintain high quality products can outstrip their development team’s bandwidth for QA. Building out a large QA team (whether in-house or outsourced) can slow down development and significantly increases costs. This eBook takes QA profiles from 5 companies who successfully scaled up production without building a large QA team and includes: What to consider when choosing CI/CD tools How culture and communication can make or break implementation