Carbon fibers have gained an immense importance in a range of applications in industrial sectors such as wind energy, automotive, civil engineering, pressure vessels as well as in aerospace & military, motorsports and other sporting goods because of their superior characteristics like enhanced stiffness & tensile strength, low weight, improved chemical resistance & temperature tolerance and low thermal expansion. The industries, having the high growth potential for carbon fiber reinforced plastics (CFRP) and intern carbon fibers in the near future include automotive, wind energy, aerospace & defense, offshore oil & gas applications and composite pressure vessels among others.
Growing demand for high performance, light weight materials in automotive and aerospace industries is expected to remain a key driving factor for the global carbon fiber reinforced plastics (CFRP) market.
For More Information Visit - http://www.grandviewresearch.com/industry-analysis/carbon-fiber-market
Global and china carbon fiber and cfrp industry report, 2016 2020ResearchInChina
The global carbon fiber demand amounted to 59,000 tons in 2015. 22%, 62% and 16% of carbon fiber were applied to aerospace, industries, and sports & leisure respectively. Specifically, the demand from industries grew fastest, especially from automobiles, wind power, pressure vessels and other market segments. By 2020, 72% of the global carbon fiber will be used in industries, of which 23% will be adopted by automobiles and 21% by wind power.
Affected by the global economic downturn and the slowdown in economic growth of China, in 2012, the growth rate of global output of cobalt fell sharply, with annual output of 110,000 tons, up by merely 0.9% year on year; the output of refined cobalt also declined dramatically, down 6.1 % year on year to 77,200 tons. In 2013, the global cobalt market rallied slightly, but it was still not optimistic as a whole, it is expected that annual output of cobalt in 2013 will show a year-on-year rise of about 3.6%.
Growing demand for high performance, light weight materials in automotive and aerospace industries is expected to remain a key driving factor for the global carbon fiber reinforced plastics (CFRP) market.
For More Information Visit - http://www.grandviewresearch.com/industry-analysis/carbon-fiber-market
Global and china carbon fiber and cfrp industry report, 2016 2020ResearchInChina
The global carbon fiber demand amounted to 59,000 tons in 2015. 22%, 62% and 16% of carbon fiber were applied to aerospace, industries, and sports & leisure respectively. Specifically, the demand from industries grew fastest, especially from automobiles, wind power, pressure vessels and other market segments. By 2020, 72% of the global carbon fiber will be used in industries, of which 23% will be adopted by automobiles and 21% by wind power.
Affected by the global economic downturn and the slowdown in economic growth of China, in 2012, the growth rate of global output of cobalt fell sharply, with annual output of 110,000 tons, up by merely 0.9% year on year; the output of refined cobalt also declined dramatically, down 6.1 % year on year to 77,200 tons. In 2013, the global cobalt market rallied slightly, but it was still not optimistic as a whole, it is expected that annual output of cobalt in 2013 will show a year-on-year rise of about 3.6%.
Presentation of Christopher Weber for the "Workshop Virtual Sugarcane Biorefinery"
Apresentação de Christopher Weber realizada no "Workshop Virtual Sugarcane Biorefinery "
Date / Data : Aug 13 - 14th 2009/ 13 e 14 de agosto de 2009
Place / Local: ABTLus, Campinas, Brazil
Event Website / Website do evento: http://www.bioetanol.org.br/workshop4
Composite materials are becoming popular in various industries such as aerospace industry, automotive industry, and wind energy. We have seen global surge in the demand of composites particularly carbon fiber reinforced plastic (CFRP) composites, which has led to huge volume of manufacturing and end-of-life waste material. The most common way for disposing of composite waste is through landfills. However, current, and impending legislations such as Directive on Landfill of Waste, have limited the amount of composite waste permitted for landfilling. Also, for making of pristine carbon fiber requires high amount of energy if we compare it to other materials like steel and aluminium. This generates a need to find out a way to recycle and reuse the waste material or the end-of-life material in different sector applications. This study mainly focuses on the strength comparison of pristine(virgin) CFRP with recycled CFRP and conducting finite element analysis on some parts made from virgin and recycled material. Also, details about mechanical recycling, cost estimation for producing virgin material as well as for recycling the material must be taken into account.
New Opportunities for Leadership in Goal-setting: On to the Next Level of Sci...Sustainable Brands
SB'14 San Diego
Bill Baue, Co-Founder, Sustainability Context Group
Emma Stewart, Head of Sustainability Solutions, Autodesk
Pankaj Bhatia, Director, GHG Protocol, World Resources Institute (WRI)
Jeff Gowdy, Adjunct Assistant Professor, Vanderbilt University
This session brings attendees up to speed with the practice of context-based sustainability, a cutting-edge approach to measurement, management and reporting that interprets performance relative to social and ecological thresholds. Find out why the path toward achieving true sustainability must feature goal-setting against real-world, science-based thresholds such as the 9 Planetary Boundaries on the ecological front. Discover tools and tactics proven useful with this next-level kind of goal-setting.
This report analyzes the worldwide markets for Carbon & Graphite in US$ Million by the following Product Segments: Carbon & Graphite Electrodes (Carbon Electrodes, & Graphite Electrodes), and Other Carbon & Graphite Products (C&G Automotive Brushes, C&G Industrial Brushes & Contacts, C&G Brush Plates, C&G Fibers, C&G Products For Electrical Uses, C&G Products For Mechanical Uses, C&G Products For Aerospace Uses, and C&G Products For Other Uses). The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, Latin America, and Rest of World. Annual estimates and forecasts are provided for each region for the period 2007 through 2015. Also, a seven-year historic analysis is provided for these markets. The report profiles 206 companies including many key and niche players such as Cabot Corporation, Carbone Lorraine, Evonik Degussa GmbH, GrafTech International Ltd., HEG Ltd., Hexcel Corporation, Mitsubishi Rayon Co. Ltd., Grafil, Inc., Morgan Crucible Company Plc, Morgan Industrial Carbon, Nippon Carbon Co Ltd., SGL Carbon, Showa Denko Carbon K.K, Showa Denko Carbon Inc., Superior Graphite Co., Toho Tenax Co., Ltd., Toho Tenax America, Inc., Tokai Carbon Co Ltd., Toray Industries, Inc., and Zoltek Companies, Inc. Market data and analytics are derived from primary and secondary research. Company profiles are mostly extracted from URL research and reported select online sources.
Recycled Carbon Fiber Market Report: Trends, Forecast and Competitive AnalysisLucintel
Lucintel forecasts that non-woven mats will remain the largest product type and it is also expected to witness the highest growth over the forecast period due to the growing demand for low cost, recycled carbon fiber in structural applications. #RecycledCarbonFiberMarket, #CarbonFiberMarket, #FiberMarket, #RecycledCarbonFiber
Carbon Fiber Reinforced Plastic Market Revenue is to be $27.98 Billion By 2024Amit M
The global carbon fiber reinforced plastic (CFRP) market size was USD 11.6 billion in 2015.Aerospace & defense application segment contributed significantly to shape the overall revenue owing to the high cost of aerospace grade CFRP.
Carbon Fibre is one of the most recent developments in the field of composite materials and is one of the strongest fibers known to man. It is usually the first choice of fibre if something very strong and very light is required.
Carbon fibre was originally developed in space technology, but has now been adopted in many other areas of manufacture. Racing car monocoques and aeroplane wings are usually constructed of carbon fibre.
With the decrease in its cost over recent years, it is fast becoming one of the leading materials in many areas, including performance sport equipment, transport, scientific experiments and even wallets and watches.
Europe Carbon Black Market Size, Share, Industry Report, 2035Chem Analyst Pvt Ltd
Carbon black is produced industrially using a mixture of gaseous or liquid hydrocarbons which are easily vaporized. Raw materials which can be used for carbon black manufacturing include certain fractions of coal tar oils and petrochemical oils from petroleum refining or the production of Ethylene from Naphtha.
The Polyphenylene Sulphide (PPS) – Market Study – 2017 is written to provide clients with a historical perspective and an insightful future market outlook for global and regional PPS market for the period 2009-2025. This section (Introduction and Executive Summary) is intended to provide the client with an overview, findings and highlights of the PPS market study. To know more write to us at sales@prismaneconsulting.com
The North American fiber-reinforced plastic/composite market is estimated at 2.7 billion pounds in 2010 and is expected to increase to about 3.1 billion by 2015, reflecting a 2.8% compound annual growth rate (CAGR). Construction/infrastructure and automotive products are the key applications of this market since they comprise about 60% of total volume. This sector is valued at 836 million pounds in 2010 and is expected to reach 963 million pounds in 2015, a 2.9% compound annual growth rate (CAGR). The largest growth will be experienced by the very low volume aerospace market led by the introduction of composite commercial aircraft exterior parts such as fuselages and wings. This sector is estimated at 20 million pounds in 2010 and should increase at a 7% compound annual growth rate (CAGR) to reach 28 million pounds in 2015. INTRODUCTIONREASONS FOR DOING THE STUDY The emergence of new technologies and markets warrants a reappraisal of the reinforced plastics market, often called “composites.” Nanocomposites and long-fiber reinforced thermoplastics are the two most prominent and potentially commercially important examples that have begun to impact this market. In addition, a review of reinforced plastics is needed with a view towards appropriately segmenting the major components of this market into its resin, technology, and applications components. Fillers and reinforcements need to be carefully defined when it comes to their principal functions and effects on properties of substrate resins since many terms and market estimates used within this industry are not clear cut. Another important reason for undertaking this report is to assess the current and future scenario of this market in terms of the current financial recession, which has had an enormous impact on two of the largest applications of reinforced plastics, namely construction and automotive. SCOPE OF THE STUDY This report covers usage of both thermosets and thermoplastics that use fillers and reinforcements to increase their respective property profiles. Fillers will be differentiated from reinforcements, which in turn, will include both fibrous and non-fibrous variants. The term “fillers/reinforcements” will be used when generally referring to these materials as in most literature references, mainly because many nontechnical sources often do not distinguish fillers from reinforcements. For the purposes of this report, the following are defined as fillers and not reinforcements: aluminum trihydrate (ATH), barium sulfate, calcium carbonate, and kaolins. Talcs, mica, silicas, and wollastonite are treated as non-fibrous reinforcements. Fibrous reinforcements will include all glass fiber variants, carbon, boron, ceramic, aramid, and stainless steel fibers, and so forth. The major exception will be nanocomposites, which are based on fillers and will be included in the study. There have been quite a few lengthy reports based solely on composites. A basic premise in distinguishing between a “filler” and a “reinforcement” is whether the primary function of the material is used to enhance property profiles of substrate resins. If the answer is “yes,” then it can be considered a “reinforcement.” This definition is, of course, arbitrary, especially since in many cases mineral “fillers” are used in conjunction with fibrous materials, most notably glass. Another source of confusion is the constant overlapping of the terms “reinforced plastics” and “composites.” One distinction between these two terms, cited by some within the industry, is that the latter refers to those reinforced resins that can “support a load” or are “structurally reinforced.” This definition is also arbitrary. Therefore, in this report, the terms “reinforced plastics” and “composites” will be used interchangeably unless specifically designate
Presentation of Christopher Weber for the "Workshop Virtual Sugarcane Biorefinery"
Apresentação de Christopher Weber realizada no "Workshop Virtual Sugarcane Biorefinery "
Date / Data : Aug 13 - 14th 2009/ 13 e 14 de agosto de 2009
Place / Local: ABTLus, Campinas, Brazil
Event Website / Website do evento: http://www.bioetanol.org.br/workshop4
Composite materials are becoming popular in various industries such as aerospace industry, automotive industry, and wind energy. We have seen global surge in the demand of composites particularly carbon fiber reinforced plastic (CFRP) composites, which has led to huge volume of manufacturing and end-of-life waste material. The most common way for disposing of composite waste is through landfills. However, current, and impending legislations such as Directive on Landfill of Waste, have limited the amount of composite waste permitted for landfilling. Also, for making of pristine carbon fiber requires high amount of energy if we compare it to other materials like steel and aluminium. This generates a need to find out a way to recycle and reuse the waste material or the end-of-life material in different sector applications. This study mainly focuses on the strength comparison of pristine(virgin) CFRP with recycled CFRP and conducting finite element analysis on some parts made from virgin and recycled material. Also, details about mechanical recycling, cost estimation for producing virgin material as well as for recycling the material must be taken into account.
New Opportunities for Leadership in Goal-setting: On to the Next Level of Sci...Sustainable Brands
SB'14 San Diego
Bill Baue, Co-Founder, Sustainability Context Group
Emma Stewart, Head of Sustainability Solutions, Autodesk
Pankaj Bhatia, Director, GHG Protocol, World Resources Institute (WRI)
Jeff Gowdy, Adjunct Assistant Professor, Vanderbilt University
This session brings attendees up to speed with the practice of context-based sustainability, a cutting-edge approach to measurement, management and reporting that interprets performance relative to social and ecological thresholds. Find out why the path toward achieving true sustainability must feature goal-setting against real-world, science-based thresholds such as the 9 Planetary Boundaries on the ecological front. Discover tools and tactics proven useful with this next-level kind of goal-setting.
This report analyzes the worldwide markets for Carbon & Graphite in US$ Million by the following Product Segments: Carbon & Graphite Electrodes (Carbon Electrodes, & Graphite Electrodes), and Other Carbon & Graphite Products (C&G Automotive Brushes, C&G Industrial Brushes & Contacts, C&G Brush Plates, C&G Fibers, C&G Products For Electrical Uses, C&G Products For Mechanical Uses, C&G Products For Aerospace Uses, and C&G Products For Other Uses). The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, Latin America, and Rest of World. Annual estimates and forecasts are provided for each region for the period 2007 through 2015. Also, a seven-year historic analysis is provided for these markets. The report profiles 206 companies including many key and niche players such as Cabot Corporation, Carbone Lorraine, Evonik Degussa GmbH, GrafTech International Ltd., HEG Ltd., Hexcel Corporation, Mitsubishi Rayon Co. Ltd., Grafil, Inc., Morgan Crucible Company Plc, Morgan Industrial Carbon, Nippon Carbon Co Ltd., SGL Carbon, Showa Denko Carbon K.K, Showa Denko Carbon Inc., Superior Graphite Co., Toho Tenax Co., Ltd., Toho Tenax America, Inc., Tokai Carbon Co Ltd., Toray Industries, Inc., and Zoltek Companies, Inc. Market data and analytics are derived from primary and secondary research. Company profiles are mostly extracted from URL research and reported select online sources.
Recycled Carbon Fiber Market Report: Trends, Forecast and Competitive AnalysisLucintel
Lucintel forecasts that non-woven mats will remain the largest product type and it is also expected to witness the highest growth over the forecast period due to the growing demand for low cost, recycled carbon fiber in structural applications. #RecycledCarbonFiberMarket, #CarbonFiberMarket, #FiberMarket, #RecycledCarbonFiber
Carbon Fiber Reinforced Plastic Market Revenue is to be $27.98 Billion By 2024Amit M
The global carbon fiber reinforced plastic (CFRP) market size was USD 11.6 billion in 2015.Aerospace & defense application segment contributed significantly to shape the overall revenue owing to the high cost of aerospace grade CFRP.
Carbon Fibre is one of the most recent developments in the field of composite materials and is one of the strongest fibers known to man. It is usually the first choice of fibre if something very strong and very light is required.
Carbon fibre was originally developed in space technology, but has now been adopted in many other areas of manufacture. Racing car monocoques and aeroplane wings are usually constructed of carbon fibre.
With the decrease in its cost over recent years, it is fast becoming one of the leading materials in many areas, including performance sport equipment, transport, scientific experiments and even wallets and watches.
Europe Carbon Black Market Size, Share, Industry Report, 2035Chem Analyst Pvt Ltd
Carbon black is produced industrially using a mixture of gaseous or liquid hydrocarbons which are easily vaporized. Raw materials which can be used for carbon black manufacturing include certain fractions of coal tar oils and petrochemical oils from petroleum refining or the production of Ethylene from Naphtha.
The Polyphenylene Sulphide (PPS) – Market Study – 2017 is written to provide clients with a historical perspective and an insightful future market outlook for global and regional PPS market for the period 2009-2025. This section (Introduction and Executive Summary) is intended to provide the client with an overview, findings and highlights of the PPS market study. To know more write to us at sales@prismaneconsulting.com
The North American fiber-reinforced plastic/composite market is estimated at 2.7 billion pounds in 2010 and is expected to increase to about 3.1 billion by 2015, reflecting a 2.8% compound annual growth rate (CAGR). Construction/infrastructure and automotive products are the key applications of this market since they comprise about 60% of total volume. This sector is valued at 836 million pounds in 2010 and is expected to reach 963 million pounds in 2015, a 2.9% compound annual growth rate (CAGR). The largest growth will be experienced by the very low volume aerospace market led by the introduction of composite commercial aircraft exterior parts such as fuselages and wings. This sector is estimated at 20 million pounds in 2010 and should increase at a 7% compound annual growth rate (CAGR) to reach 28 million pounds in 2015. INTRODUCTIONREASONS FOR DOING THE STUDY The emergence of new technologies and markets warrants a reappraisal of the reinforced plastics market, often called “composites.” Nanocomposites and long-fiber reinforced thermoplastics are the two most prominent and potentially commercially important examples that have begun to impact this market. In addition, a review of reinforced plastics is needed with a view towards appropriately segmenting the major components of this market into its resin, technology, and applications components. Fillers and reinforcements need to be carefully defined when it comes to their principal functions and effects on properties of substrate resins since many terms and market estimates used within this industry are not clear cut. Another important reason for undertaking this report is to assess the current and future scenario of this market in terms of the current financial recession, which has had an enormous impact on two of the largest applications of reinforced plastics, namely construction and automotive. SCOPE OF THE STUDY This report covers usage of both thermosets and thermoplastics that use fillers and reinforcements to increase their respective property profiles. Fillers will be differentiated from reinforcements, which in turn, will include both fibrous and non-fibrous variants. The term “fillers/reinforcements” will be used when generally referring to these materials as in most literature references, mainly because many nontechnical sources often do not distinguish fillers from reinforcements. For the purposes of this report, the following are defined as fillers and not reinforcements: aluminum trihydrate (ATH), barium sulfate, calcium carbonate, and kaolins. Talcs, mica, silicas, and wollastonite are treated as non-fibrous reinforcements. Fibrous reinforcements will include all glass fiber variants, carbon, boron, ceramic, aramid, and stainless steel fibers, and so forth. The major exception will be nanocomposites, which are based on fillers and will be included in the study. There have been quite a few lengthy reports based solely on composites. A basic premise in distinguishing between a “filler” and a “reinforcement” is whether the primary function of the material is used to enhance property profiles of substrate resins. If the answer is “yes,” then it can be considered a “reinforcement.” This definition is, of course, arbitrary, especially since in many cases mineral “fillers” are used in conjunction with fibrous materials, most notably glass. Another source of confusion is the constant overlapping of the terms “reinforced plastics” and “composites.” One distinction between these two terms, cited by some within the industry, is that the latter refers to those reinforced resins that can “support a load” or are “structurally reinforced.” This definition is also arbitrary. Therefore, in this report, the terms “reinforced plastics” and “composites” will be used interchangeably unless specifically designate
For a report overview of this report please contact sara.peerun@visiongainglobal.com
(+44 (0) 20 7336 6100) or refer to our website:
https://www.visiongain.com/
https://www.visiongain.com/Report/1820/Polymer-Nanocomposites-Market-2017-2027
Hydroponics Global Market to Reach $25 Billion by 2029 | Industry Experts, IncIndustry Experts
Industry Experts, Inc. published the latest market research report on Hydroponics. As per the new report entitled “Global Hydroponics Market – System Types, Input Types and Crop Types”, Asia-Pacific region is poised to exhibit the fastest growth during 2023-2029 with a CAGR of 12.9% closely followed by Europe with 12.6%. Europe leads the global Hydroponics market with an estimated US$4.9 billion in 2023.
Global Polyoxymethylene (POM or Polyacetal) Market to Reach 4.2M Metrics Tons...Industry Experts
Latest Market Research Report from Industry Experts, Inc Reveals that Global Polyoxymethylene (POM or Polyacetal) Market to Reach 4.2M Metrics Tons by 2028 Driven by Growth in Asia-Pacific
Global Demand for Semiconductor Gas Sensors 2022-2027 by Industry Experts, IncIndustry Experts
Safety & Security applications account for the largest share of the global demand for Semiconductor Gas Sensors, which is estimated to account for 23.4% share in 2022. Overall global market for Semiconductor Gas Sensors is estimated to reach US$1.1 billion in 2022.
Global Precipitated Silica Market by Application and Region - 2019 to 2025Industry Experts
The market for precipitated silica is explored in this study with respect to major applications. Asia-Pacific is the largest region for the global precipitated silica market with 56.2% share in 2019, followed by Europe with 25.3%. The region is also forecasted to lead the growth of global precipitated silica market at a 2019 to 2025 CAGR of 7.6% to reach 2.3 million metric tons by 2025.
Ventilation product segments analyzed in this study include Axial Fans, Centrifugal Fans, Centrifugal Blowers, Cross Flow Fans, Domestic Exhaust Fans, Power Roof Ventilators, Range Hoods, Industrial Propeller Fans, Air Handling Units (AHUs) for Ventilation and Heat Recovery (HRV)/Energy Recovery Ventilation (ERV) Units. Axial Fans are the leading segment of ventilation equipment in US, with forecast shipments of 7.75 million units in 2017, followed by Domestic Exhaust Fans forecast at 5.8 million units in the same year.
Ventilation Equipment - A European Market OverviewIndustry Experts
The report analyzes the European ventilation equipment shipments covering all of the 27 European Union countries with special focus on Czech Republic, Denmark, France, Germany, Italy, the Netherlands, Poland, Portugal, Spain, Sweden and the United Kingdom. Ventilation product segments analyzed in this study include Axial Fans, Centrifugal Fans, Cross Flow Fans, Domestic Exhaust Fans, Roof/Box Fans, Range Hoods and Air Handling Units (AHUs) for Ventilation. European shipments value of ventilation equipment is forecast to reach US$5 billion in 2017, from an estimated US$4.98 billion in 2012.
High Performance Polyamides – A Global Market OverviewIndustry Experts
Mega trends in the automotive, electrical & electronics and oil & gas sectors are expected to spur the demand for high performance polyamides in the future. In the automotive industry, growth is supported by metal replacement to reduce vehicle weight, while thinner and smaller components in electronic devices. Further, the development of unconventional oil and gas technologies to spur the demand for the specialty polyamides. Global volume consumption of High Performance Polyamides is forecast to be 217.4 thousand metric tons in 2016 and is projected to reach 271.1 thousand metric tons by 2022 at a CAGR of 3.7% between the two years.
Polyphenylene Sulfide (PPS) – A Global Market OverviewIndustry Experts
The polyphenylene sulfide market study reviews, analyzes and projects the global market for polyphenylene sulfide for the period 2012-2022 while discussing the global PPS resin installed capacities. Global market for polyphenylene sulfide product types analyzed in the report include PPS compounds and other PPS products such as fibers, films and coatings. Market for polyphenylene sulfide application areas analyzed in the study include automotive, electrical & electronics, industrial and other applications.
Aramid Fibers (Para and Meta) – A Global Market OverviewIndustry Experts
Safety & protection constitutes the largest end-use application for aramid fibers accounting for a share of over 30 percent in 2013. However, in terms of growth, optical fiber cables are slated to outpace all other application areas with a volume CAGR of 8.4% during the 2014 to 2020 analysis period. Aramid fiber product types analyzed in this study include Para-Aramid fibers and Meta-Aramid fibers. With a slight overlapping for these two product segments, end-use application areas of aramid fibers analyzed include for Para-Aramid Fibers – Safety & Protection, Frictional Materials, Optical Fiber Cables, Tire Reinforcements, Rubber Reinforcements and other applications; and Meta-Aramid Fibers – Electrical Insulation, Safety & Protection, Filtration, Rubber Reinforcements and other applications.
Worldwide market for Biolubricant product categories explored in this study includes Hydraulic Fluids, Metalworking Fluids, Chainsaw Lubricants, Mold Release Agents, Gear Oils, Two-Stroke Engine Oils and Greases. The report also focuses on end-use markets for biolubricants comprising Automotive & Transportation, Commercial/Industrial and Others. The global markets for the above mentioned product categories and end-use applications are analyzed in both value in USD and the volumes in pounds (lbs). Global volume consumption of Biolubricants, estimated at 1.3 million pounds in 2013, valued at about US$2 billion, and forecast at 1.4 million pounds (US$2.1 billion) in 2014, is further expected to maintain a CAGR of 5.5% between 2010 and 2020 to reach a projected 1.9 million pounds, of value US$3 billion, by 2020.
Omega-3 Polyunsaturated Fatty Acids (PUFAs) – A Global Market OverviewIndustry Experts
Omega-3 Polyunsaturated Fatty Acid (PUFAs) ingredients market analyzed in this study include EPA and DHA omega-3s from marine oils such as fish oils, krill oils and squid oils; and algal oils. The end use application markets covered in the report include dietary supplements, food & beverages, pet nutrition, infant nutrition, pharmaceuticals and clinical nutrition. Worldwide, consumption of Omega-3 polyunsaturated fatty acids (PUFAs), estimated at 123.8 thousand metric tons worth US$2.3 billion in 2013, is forecast to be 134.7 thousand metric tons valued at US$2.5 billion in 2014.
Industrial Adhesives: Products and Applications – A Global Market OverviewIndustry Experts
Industrial Adhesives application areas explored in this report encompass Pressure Sensitive Products, Packaging, Construction, Woodworking, Transportation and Other Applications. The report also analyzes the product segments including Acrylics, Water-Based PVAc & VAE, Polyurethane, EVA & Polyethylene Hot-Melts, SBC Hot-Melts, Epoxy, Polychloroprene and Others. The major product segments further classified in to sub-types as Acrylics – Emulsion-Based Acrylics, Solvent-Based Acrylics and Other Acrylics; and Polyurethane - Solvent-Based, 100% Reactive, Hot-Melt and Water-Based.
Industrial Adhesives: Products and Technologies – A Global Market OverviewIndustry Experts
Industrial Adhesives technologies discussed in this study comprises Water-Based, Solvent-Based, Hot Melts and 100% Reactive. The product segments analyzed in include Acrylics, Water-Based PVAc & VAE, Polyurethane, EVA & Polyethylene Hot-Melts, SBC Hot-Melts, Epoxy, Polychloroprene and Others. The major product segments further classified in to sub-types as Acrylics – Emulsion-Based Acrylics, Solvent-Based Acrylics and Other Acrylics; Polyurethane - Solvent-Based, 100% Reactive, Hot-Melt and Water-Based.
Global Automotive Sensors Market with Special Focus on MEMS SensorsIndustry Experts
Automotive sensor product segments analyzed in this study include position sensors, pressure sensors, speed sensors, oxygen sensors, accelerometers, rollover sensors, yaw rate sensors, temperature sensors, mass airflow sensors and other automotive sensors. Automotive sensors market is also analyzed by automotive end-use application area including powertrain, chassis, safety & security, body, communication & navigation and other automotive applications. Further, this report also focuses on automotive MEMS sensors market analyzed by product segments including MEMS pressure sensors, MEMS accelerometers, MEMS gyroscopes, MEMS flow sensors and other MEMS sensors; and by end-use applications comprising powertrain, chassis, safety & security and other applications.
Biopharmaceuticals product segments analyzed in this study comprises Monoclonal Antibodies (moAb), Erythropoietin, Biotech Vaccines, Recombinant Human (RH) Insulin, Granulocyte Colony-Stimulating Factor (G-CSF), Interferons, Human Growth Hormones (HGH) and others. Therapeutic areas analyzed include Neurology, Infectious Diseases, Diabetes, Oncology, Cardiovascular and others. Biopharmaceuticals market, estimated at US$199.7 billion globally in 2013, is further projected to reach US$497.9 billion by 2020, growing at 13.5% CAGR between 2010 and 2020. Among different product segments, monoclonal antibodies (moAb) constitutes the largest product segment in the global biopharmaceuticals market accounting for an estimated share of 25.6% in 2013, equating to US$51.1 billion. In terms of therapeutic area, neurology applications is the largest market for global biopharmaceuticals with an estimated 2013 share of 28.2% valued at US$56.3 billion, and further expected reach a projected US$144.5 billion by 2020.
The emerging regions such as Asia, South America, Middle-East and developing regions from Europe have been witnessing sizeable growth prospects for engineering plastics. Growing purchasing power in the developing economies is seen as a key driver of demand for engineering plastics in these regions. Primary drivers for the same include hitherto unexplored opportunities of replacing metals not only in automobiles, but also in the areas of household appliances, construction and infrastructure, to name a few. For example, Asian economy has been thriving primarily due to advancements in the traditional sectors of automobiles, building and construction, business machines, electrical & electronics, household appliances, telecommunications and transportation. Engineering Plastics are being widely employed in auto parts, consumer goods and electrical & electronics applications.
Engineering Plastics covered in this report include Styrene Copolymers - Acrylonitrile Butadiene Styrene and Styrene Acrylonitrile (ABS & SAN), Polycarbonate (PC), Polyamide (PA), Polymethyl Methacrylate (PMMA), Polyacetal/Polyoxymethylene (POM), Thermoplastic Polyesters - Polybutylene Terephthalate ad Polyethylene Terephthalate (PBT & PET), Polyphenylene Oxide (PPO/PPE Blends), Fluoropolymers (PTFE & Other FPs), Polyphenylene Sulfide (PPS) and Other High Performance Engineering Thermoplastics (HPETPs) including Polyketones (PEEK & PEKK), Liquid Crystal Polymers (LCPs), Polyimide (PI) and High Temperature Polyamides (HT-PA).
Market for Engineering Plastics application areas analyzed in the study include automotive, electrical & electronics, building & construction, consumer goods & appliances, industrial applications and other. The report estimates and projects the global market for engineering plastics for the period 2010-2020, in terms of volume (metric tons) as well as value (US$ million) by geographic regions including North America, Europe, Asia-Pacific and Rest of World.
Global market for engineering plastics, estimated at 19.6 million metric tons in 2012, is further projected to maintain a CAGR of over 5% during 2012-2020 in reaching 29.1 million metric tons by 2020. In terms of value, demand for engineering plastics is projected to register a corresponding CAGR of 7.9% in reaching US$113.7 billion by 2020 from an estimated US$67 billion in 2013 and a forecast US$72.5 billion in 2014.
Demand for industrial abrasives will be fostered by renewed industrialization activity in the developing regions, rising per capita incomes and consumer spending, enhanced manufacturing activities in the durables sector, and increased fixed investments, more so in Asia-Pacific. Boost in the construction and manufacturing sectors and per capita incomes would result in bolstering demand for industrial abrasives that comprise cleaning & maintenance products in developing areas.
The report reviews, analyses and projects the industrial abrasives market for global and the regional markets including North America, Europe, Asia-Pacific, South America and Rest of World. The regional markets further analyzed for 15 independent countries across North America – the United States, Canada and Mexico; Europe – Germany, France, Italy, the United Kingdom, Spain, Russia and Rest of Europe; Asia-Pacific – China, Japan, South Korea, India and Rest of Asia-Pacific.
Market for industrial abrasive product segments analyzed in this study includes Non-Metallic and Metallic abrasives. Non-Metallic industrial abrasives further analyzed for their sub-segments comprising bonded non-metallic abrasives, coated industrial abrasives and Loose Grains & Powder abrasives. The report also analyzes the global abrasives market by major end-use application areas including Machinery, Electrical & Electronics, Transportation, Metal Fabrication, Cleaning & Maintenance and Miscellaneous. Global market for industrial abrasives is projected to touch US$ 27 billion in 2012 and projected to reach US$ 36 billion by 2018. Asia-Pacific is estimated to be both largest and the fastest growing market for industrial abrasives with a Compounded Annual Growth Rate (CAGR) of 6.5% between 2008 and 2018 to account for 58% of global market share in 2018.
This 452 page global market report includes 266 charts (includes a data table and graphical representation for each chart), supported with meaningful and easy to understand graphical presentation, of the market. The statistical tables represent the data for the global market by geographic region, product group/sub-segments and application areas.
Glass Fibers: Fiberglass/Glass Wool and Glass Fiber Reinforcements – A Global...Industry Experts
Market for Glass Fiber product segments analyzed in this study includes Fiberglass/Glass Wool and Glass Fiber Reinforcements. The report analyses the market in terms of volume consumptions in metric tons as well as value consumption in US$ dollars. The report also includes the end-use application analysis for Fiberglass/Glass Wool – Residential Construction, Commercial & Industrial Construction, Industrial & HVAC Applications and Appliances & Other; and Glass Fiber Reinforcements – Automotive & Transportation, Marine, Wind Energy, Pipe, Tank & Other Corrosion Resistant Equipment, Building & Construction, Electrical & Electronics, Consumer Goods, Aerospace & Defense and Others.