High Temperature Thermoplastics Market - Forecast(2024 - 2030)
High Temperature Thermoplastics Market Overview
High-Temperature
Thermoplastics Market size is forecast to reach US$28.3 billion by 2026, after
growing at a CAGR of 8.9% during 2021-2026. High temperature thermoplastic materials
are a specialized and rapidly growing segment of the plastics market. These are
used in specialized applications that require a combination of extraordinary
properties. The High temperature thermoplastics, also known as high performance
thermoplastics, have melting points between 650 and 725°F which is up to 100%
more than standard engineering thermoplastics. There are various types of high
temperature thermoplastics such as polyimides
(PI), fluoropolymers,
aromatic polyketones, high-performance
polyamides (HPPA), polybenzimidazoles (PBI), polyphenylene sulfides and sulfone polymers to name
a few. These thermoplastics have higher heat deflection
temperatures, glass transition temperatures, and continuous use temperature.
Because of these extraordinary properties, high-temperature thermoplastics can
be used for a diverse set of industries such as electrical, medical devices,
automotive, aerospace, electronics, and many other specialized applications.
The flourishing medical industry is the key driver for the high temperature
thermoplastics during the forecast period.
COVID-19 Impact
The COVID-19
virus has spread worldwide without acknowledging borders. It has impacted
all industries, all sectors and all aspects of life with devastating economic
and financial losses. The core industries such as aerospace, automotive, and energy
industry are highly impacted. The
automotive industry suffered major setbacks. Many automotive plants had to be
shut due to lockdowns and social distancing policy. According to the International Organization of Motor Vehicle
Manufacturers (OICA) the total production of vehicles declined by 16% in 2020. 77.62 million vehicles were produced in 2020 whereas 91.79 million
vehicles were produced in 2019.
Supply chain disruptions, raw material delays,
delays in availability of models, deferred launches and shrinkage in consumer
demand have also added to the woes. Hence, this has impacted the high
temperature thermoplastics market in 2020.
Report Coverage
The report: “High Temperature Thermoplastics Market –
Forecast (2021-2026)”, by IndustryARC, covers an in-depth analysis of the
following segments of the High Temperature Thermoplastics Market.
By Resin: Fluoropolymers ( Polytetrafluoroethylene (PTFE), Fluorinated
Ethylene Propylene (FEP), and Others), Sulfone Polymers (Polysulfone (PS),
Polyethersulfone (PES), Polyphenylsulfone (PPS), and Others), Polyimides
(Polyetherimide (PEI), Polyamideimide (PAI), and Polyesterimide (PEI)),
Aromatic Ketone Polymers (Polyetherketone (PEK), Polyetherketone Ketone (PEKK),
and Polyetheretherketone (PEEK)), High Performance Polyamides HPPA (Polyphthalamide
and Polyacrylamide), Polyphenylene Sulfide (PPS), Polybenzimidazole (PBI),
Liquid Crystal Polymers (LCP), and Others.
By Form: Amorphous and Semi-Crystalline.
By Temperature: High
Temperature Thermoplastics, and Extreme Temperature Thermoplastics.
By End-Use Industry: Aerospace
(Commercial, Military, and Others), Automotive (Passenger Vehicles (PV), Light
Commercial Vehicles (LCV), Heavy Commercial Vehicles (HCV)), Electrical and
Electronics (Semiconductors, Display, Electronic Components, Wires & Cables
and Others), Medical (Surgical Equipment, Medical Devices, Drug Delivery,
Diagnostics and Others), Building and Construction (Residential, and Commercial),
Oil and Gas, Heavy Machinery Manufacturing (Agricultural Equipment, Heavy
Construction Equipment, Chemical Processing Equipment, Wastewater Treatment
Equipment and Others), Chemical, Energy
(Wind Energy, Solar Energy, Nuclear Energy, and Others), Consumer Goods,
Defense and Others.
By Geography: North
America (USA, Canada, and Mexico), Europe (UK, Germany, France, Italy,
Netherlands, Spain, Russia, Belgium, and Rest of Europe), Asia-Pacific (China,
Japan, India, South Korea, Australia and New Zealand, Indonesia, Taiwan,
Malaysia, and Rest of APAC), South America (Brazil, Argentina, Colombia, Chile,
and Rest of South America), Rest of the World (Middle East, and Africa).
Key Takeaways
- Asia-Pacific dominates the High Temperature Thermoplastics market, owing to the growing electrical & electronics industries in the region. According to Invest India, the domestic electronics market in India to attain US$400 billion by 2025.
- Polyetheretherketone (PEEK) is the most widely used high temperature thermoplastic and manufactured in large scale, owing to its unique combination of mechanical properties, resistance to chemicals, wear, fatigue and creep as well as exceptionally high temperature resistance, up to 260°C. High performance polyamides (HPPA) are used to make durable, functional components for automotive thermal management and other demanding applications because they maintain excellent strength and toughness during exposure to hot, aggressive automotive fluids and to hot air.
- There has been an increase in usage of high temperature thermoplastics in the medical industry as they can withstand sterilization by steam autoclaving, ethylene oxide, etc. According to a recent study by research and development company Battelle, Material failure is a major or possible cause for 30% to 40% of medical device recalls by the U.S. Food & Drug Administration (FDA). This is one of the major reasons why high temperature thermoplastics are preferred in the medical industry
- The major opportunity for this market is high research spending and growing awareness in society.
Figure: Asia-Pacific High-Temperature Thermoplastics Market Revenue, 2020-2026 (US$ Billion)
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High Temperature Thermoplastics Market Segment Analysis – By Resin
The fluoropolymers
segment held the largest share in the high temperature thermoplastics market and
is expected to grow at a CAGR of 7.9% during the forecast period due to their
suitability in several application areas. Fluoropolymers include polytetrafluoroethylene
(PTFE), fluorinated ethylene propylene and others. Fluoropolymers are used in applications requiring chemical
resistance, thermal stability, cryogenic properties, low coefficient of
friction, low surface energy, low dielectric constant, high volume and surface
resistivity, and flame resistance. They are used as liners (process surface)
because of their resistance to chemical attacks. They provide durable, low
maintenance, and economical alternatives to exotic metals for use at high
temperatures without introducing impurities. A substantial rebound in
nonresidential building activity, especially in the office and commercial
sector, will spur demand for fluorinated ethylene propylene, which is widely
used in wire and cable applications. In
houseware, fluoropolymers
are applied as nonstick coatings on cookware, bakeware, and appliance surfaces.
Medical products such as surgical patches and cardiovascular grafts rely on the
long-term stability of fluoropolymers
as well as their low surface energy and chemical resistance. For airports,
stadiums, and other structures, glass fibre fabric coated with PTFE is
fabricated into roofing and enclosures. PTFE provides excellent resistance to
weathering, including exposure to ultraviolet rays in sunlight, flame
resistance for safety, and low surface energy for soil resistance and easy cleaning.
Hence, fluoropolymers are anticipated to dominate the market during the
forecast period.
High Temperature Thermoplastics Market Segment Analysis – By Form
The semi-crystalline segment held the largest
share of more than 60% in the High temperature thermoplastics market in 2020. High
temperature thermoplastics can be divided into amorphous and semi-crystalline
polymers, just like all polymers. Polysulfone, polyethersulfone (PES) and
polyetherimide (PEI) for example are amorphous; polyphenylene sulfide(PPS), polyetheretherketone
(PEEK) and polyetherketone (PEK), however are semi-crystalline. They have a sharply defined melting point and glass transition temperature. The main advantage
of semi-crystalline polymers is their high resistance against chemical
substances. For instance, PEEK possesses a high resistance against aqueous
acids, alkalis and organic solvents. PEEK exhibits exceptional tensile
properties and excellent creep resistance. Thanks to these properties, PEEK and
its composites are widely used in aerospace, automotive, structural, high
temperature electrical and biomedical applications. Polyphenylene sulfide (PPS), a semi-crystalline high temperature thermoplastic, is used to create strong synthetic
fibers and textiles that strongly resist both chemicals and heat. These fibers
can be found in applications such as coal boilers, electrical insulation, film
capacitors, fuel and brake systems, heat shields, and more. Hence, the semi-crystalline segment occupies the largest share in the high temperature
thermoplastics market.
High Temperature Thermoplastics Market Segment Analysis – By Temperature
The extreme high
temperature thermoplastics segment held a significant share in the high temperature
thermoplastics market in 2020. Heat resistance is one of the defining
properties of high temperature thermoplastics. Based on temperature, they can
be classified as high temperature thermoplastics (150°C
to 240°C) and extreme high temperature thermoplastics (above 240°C). PEEK, PI,
and PBI are considered extremely high temperature thermoplastics. Polyimide can
withstand heating up to 300°C
repeatedly without affecting its thermal or mechanical properties. Hence, it
finds applications in jet engines, machinery and automotive parts. Therefore,
the extremely high temperature thermoplastics are expected to hold a significant
market share during the forecast period.
High Temperature Thermoplastics Market Segment Analysis – By End-Use Industry
The aerospace
segment held the largest share in the high temperature thermoplastics market in
2020 and is growing at a CAGR of 9.5% from 2021 to 2026. High temperature
thermoplastics generally exhibit superior impact toughness, fire/smoke/toxicity
performance. High temperature thermoplastics such as polyphenylene sulfide (PPS), polyetherimide
(PEI) and PEEK show many favourable characteristics for application in
aerospace components. Although expensive, this can be offset by reduced
handling, processing and maintenance costs. For high temperature applications,
PEEK, PPS and PEI offer excellent thermal stability. This is a critical
property in military aero engines and supersonic jets where aerofriction heating
can generate temperatures beyond 180°C. Polyimides perform exceptionally
in extreme aerospace and defense operating temperatures in excess of 260–371°C.
Hence, they are used to replace traditional titanium and other metals in jet
engines, ducts, and stators, rocket engine nozzles and thrusters, heat shields,
and missile leading edges, offering increased design flexibility and
significant weight savings. Therefore,
the recovering aerospace industry is projected to fuel the growth of the global
high temperature thermoplastics market over the forecast period.
High Temperature Thermoplastics Market Segment Analysis – By Geography
The Asia-Pacific region held the largest share in the High Temperature Thermoplastics market in 2020 up to 39%, owing to the growing electronics and medical industries in the region. High temperature thermoplastics such as aromatic polyimides, fluoropolymers, liquid crystalline polymers, polyketones, and sulfone polymers are widely used in electric and electronic, and medical applications that involve high temperature and extreme environments. They are widely used in medical device applications due to combinations of good mechanical and chemical properties, ability to tolerate various sterilization protocols, and biocompatibility. The need for higher temperature and higher performance materials has led to the use of aromatic polysulfones, polyimides, aromatic polyketones, and polysulfides in demanding components and applications like medical trays, surgical and dental instruments, medical electronic components, drug delivery components, and machined parts. Fluoropolymers have been used in packaging, tubing, insulating materials, endoscopic, endocardial and endotracheal devices, catheter liners, and surgical instruments. The growing geriatric population, the incidence rate of diseases, and the increasing need to curb healthcare expenditure as an economically viable initiative are some high-impact rendering drivers of the medical industry in this region. The electric and electronics industry is the world's third-largest plastics end-user segment. This industry consumes approximately 27 billion pounds of total plastics usage globally. The rapid advances in the electric & electronic industry are spurring numerous advancements in thermoplastics that can match the growing complexities of electronic devices. Compounds made of high-temperature thermoplastics such as liquid crystal polymer and sulfone polymers used in molded interconnect devices and low-k dielectric polymers in semiconductor fabrication are also set to witness strong growth. China, Japan, South Korea, Taiwan, and India are the largest consumer of high temperature thermoplastics in the region. For instance, according to the Cambodia Chamber of Commerce, Cambodia-South Korea trade amounted to $884.88 million in 2020. Cambodia imported goods over $567 million from South Korea including electronics. Significant economic development in this region is leading to a higher demand for high temperature thermoplastics especially in the medical, automotive, and electrical and electronics industries in the region. Therefore, the growing end-use industries contribute towards the growth of high temperature thermoplastics in this region.
High Temperature Thermoplastics Market Drivers
Growing applications in the medical industry
Compared to the larger volume engineering thermoplastics, high temperature thermoplastics exhibit superior short and long-term thermal properties, and chemical stability due to their higher melting point and stronger inter and intramolecular bonds. They also possess superior mechanical properties, particularly at elevated temperatures, including higher stiffness, strength, and resistance to creep, wear and fatigue. Most high temperature thermoplastics can withstand long-term operating temperatures of at least 150°C and short-term use temperatures of greater than 250°C. They can also endure multiple cycles and doses of all radiation types and have an outstanding ability to be molded into parts with tight tolerance. High-temperature thermoplastics currently enjoy a rapidly growing segment of the plastics market, including in various medical applications. Polyetheretherketone (PEEK) is commonly used as a replacement for glass, stainless steel, and other metals in several medical applications such as dialyzers, dental instruments and handles on syringes, endoscopes, etc. Sulfone polymers are commonly used to manufacture parts and membranes of dialyzers, surgical theater luminaries, sterilizing boxes, secretion bottles, reusable syringes, and infusion equipment. Liquid Crystal Polymers (LCP) are used to replace metal in medical device applications for microsystem technology and minimally invasive surgery. Hence, the increasing medical applications are set to act as a major driver for the high temperature thermoplastics market during the forecast period.
Recyclable
Globally, poor waste management remains an issue of concern in an environment due to inadequate policies, legislation, and public enlightenment on waste disposal. Plastic wastes end up in landfills, beaches, rivers, and oceans, thereby causing environmental problems. The 3Rs (i.e., reduce, reuse, and recycle) have contributed to the minimization of waste in the environment. Plastic recycling is the best means of minimizing plastic waste. Plastic recycling refers to a process of achieving useful products from waste plastics after reprocessing or re-melting. Recycling is one of the most important actions currently available that provides a solution to environmental and ecological threats posed by reducing oil usage, carbon dioxide emissions, and the quantities of waste requiring disposal. High temperature thermoplastics are easily recyclable because the polymer chain does not degrade when melted down. The weaker interactions between polymer chains break down at much lower temperatures than the chemical bonds between monomers, allowing these thermoplastics to be recycled indefinitely. For instance, PEEK is fully recyclable, either mechanically or as feedstock. Energy from waste can be recovered at incineration plants. As a result, the recyclable nature will subsequently drive the high temperature thermoplastics market growth during the forecast period.
High Temperature Thermoplastics Market Challenges
Expensive High Temperature Thermoplastics
High temperature thermoplastics are more expensive when compared to engineered plastics. The price per kilogram may be between $5 (PA) and $100 (PEEK). High temperature thermoplastics are thus about 3 to 20 times as expensive as engineering plastics. Even though they have a higher price compared to engineering plastics, they are chosen when their special features compensate for their cost. They are replacing conventional materials used in aerospace and automotive applications such as ceramics and metals mainly due to their lightness, high heat and oxidative resistance, chemical inertness, high dimensional stability, corrosion resistance, and ability to maintain mechanical and physical properties over a wide temperature range. However, being expensive may constrain the high temperature thermoplastics market.
High Temperature Thermoplastics Market Landscape
Technology launches, acquisitions, and R&D activities are key strategies adopted by players in the high temperature thermoplastics market. High temperature thermoplastics market top companies include:
- Solvay
- DuPont de Nemours, Inc.
- Celanese Corporation
- BASF
- Arkema S.A.
- Royal DSM
- Sumitomo Chemicals
- DIC Corporation
- Nytef Plastics
- GSF Plastics Corporation
- Dyneon Fluoropolymers
- Emsigner
Acquisitions/Technology Launches
- In May 2021, Material & Design Solutions (MDS), a provider of high-performance thermoplastic components that include PEEK, PTFE, PPS, PI, and other thermoplastic polymers, for a variety of critical services applications in sealing applications for use in high-temperature, high-pressure, and corrosive environments, announced the acquisition of the assets of APS Plastics and Manufacturing.
- In May 2021, Arkema announced plans to acquire Agiplast, a leader in the regeneration of high-performance polymers, in particular specialty polyamides and fluoropolymers. With this acquisition, Arkema will be the first fully integrated high-performance polymer manufacturer offering both bio-based and recycled materials in order to address the challenges of resource scarcity and end-of-life products.
Relevant Reports
Thermoplastic Elastomers Market- Forecast (2021-2026)
Report Code: CMR 0098
Plastic & Polymers Market-
Forecast (2021-2026)
Report Code: CMR 0490
For more Chemical and Materials related reports, please click here
LIST OF TABLES
1.Global High Temperature Thermoplastics Market By Resin Market 2023-2030 ($M)1.1 High Temperature Fluoropolymers Market 2023-2030 ($M) - Global Industry Research
1.1.1 Polytetrafluoroethylene Market 2023-2030 ($M)
1.1.2 Fluorinated Ethylene Propylene Market 2023-2030 ($M)
1.1.3 Fluoroelastomers Market 2023-2030 ($M)
1.2 High Performance Polyamide Market 2023-2030 ($M) - Global Industry Research
1.2.1 Polyphthalamide Market 2023-2030 ($M)
1.2.2 Polyacrylamide Market 2023-2030 ($M)
1.3 Polyphenylene Sulfide Market 2023-2030 ($M) - Global Industry Research
1.4 Sulfone Polymers Market 2023-2030 ($M) - Global Industry Research
1.4.1 Poly Sulfone Market 2023-2030 ($M)
1.4.2 Polyether Sulfone Market 2023-2030 ($M)
1.4.3 Polyphenylsulfone Market 2023-2030 ($M)
1.5 Liquid Crystal Polymers Market 2023-2030 ($M) - Global Industry Research
1.6 Aromatic Ketone Polymers Market 2023-2030 ($M) - Global Industry Research
1.6.1 Polyether Ether Ketone Market 2023-2030 ($M)
1.6.2 Polyether Ketone Market 2023-2030 ($M)
1.6.3 Polyetherketoneketone Market 2023-2030 ($M)
1.7 Polyimides Market 2023-2030 ($M) - Global Industry Research
1.7.1 Polyether-Imide Market 2023-2030 ($M)
1.7.2 Polyamide-Imide Market 2023-2030 ($M)
1.7.3 Polyester-Imide Market 2023-2030 ($M)
1.7.4 High Temperature Thermoplastics Market 2023-2030 ($M)
1.7.5 Extreme Temperature Thermoplastics Market 2023-2030 ($M)
2.Global High Temperature Thermoplastics Market By Temperature Range Market 2023-2030 ($M)
3.Global High Temperature Thermoplastics Market By End-Use Industry Market 2023-2030 ($M)
3.1 Transportation Market 2023-2030 ($M) - Global Industry Research
3.1.1 Automotive Market 2023-2030 ($M)
3.1.2 Aerospace Market 2023-2030 ($M)
3.2 Electrical & Electronics Market 2023-2030 ($M) - Global Industry Research
3.2.1 Telecommunication Market 2023-2030 ($M)
3.2.2 Semiconductors Market 2023-2030 ($M)
3.2.3 Electronic Components Market 2023-2030 ($M)
3.2.4 Display Market 2023-2030 ($M)
3.2.5 Defense Electronics Market 2023-2030 ($M)
3.3 Industrial Market 2023-2030 ($M) - Global Industry Research
3.3.1 Oil & Gas Market 2023-2030 ($M)
3.3.2 Chemical Processing Market 2023-2030 ($M)
3.3.3 Power Plant Market 2023-2030 ($M)
3.3.4 Water Treatment Market 2023-2030 ($M)
3.4 Medical Market 2023-2030 ($M) - Global Industry Research
3.4.1 Pharmaceutical & Biotechnology Market 2023-2030 ($M)
3.4.2 Surgical Equipment Market 2023-2030 ($M)
3.4.3 Diagnostic Market 2023-2030 ($M)
3.4.4 Therapeutic System Market 2023-2030 ($M)
3.4.5 Dental Market 2023-2030 ($M)
4.Global High Temperature Thermoplastics Market By Resin Market 2023-2030 (Volume/Units)
4.1 High Temperature Fluoropolymers Market 2023-2030 (Volume/Units) - Global Industry Research
4.1.1 Polytetrafluoroethylene Market 2023-2030 (Volume/Units)
4.1.2 Fluorinated Ethylene Propylene Market 2023-2030 (Volume/Units)
4.1.3 Fluoroelastomers Market 2023-2030 (Volume/Units)
4.2 High Performance Polyamide Market 2023-2030 (Volume/Units) - Global Industry Research
4.2.1 Polyphthalamide Market 2023-2030 (Volume/Units)
4.2.2 Polyacrylamide Market 2023-2030 (Volume/Units)
4.3 Polyphenylene Sulfide Market 2023-2030 (Volume/Units) - Global Industry Research
4.4 Sulfone Polymers Market 2023-2030 (Volume/Units) - Global Industry Research
4.4.1 Poly Sulfone Market 2023-2030 (Volume/Units)
4.4.2 Polyether Sulfone Market 2023-2030 (Volume/Units)
4.4.3 Polyphenylsulfone Market 2023-2030 (Volume/Units)
4.5 Liquid Crystal Polymers Market 2023-2030 (Volume/Units) - Global Industry Research
4.6 Aromatic Ketone Polymers Market 2023-2030 (Volume/Units) - Global Industry Research
4.6.1 Polyether Ether Ketone Market 2023-2030 (Volume/Units)
4.6.2 Polyether Ketone Market 2023-2030 (Volume/Units)
4.6.3 Polyetherketoneketone Market 2023-2030 (Volume/Units)
4.7 Polyimides Market 2023-2030 (Volume/Units) - Global Industry Research
4.7.1 Polyether-Imide Market 2023-2030 (Volume/Units)
4.7.2 Polyamide-Imide Market 2023-2030 (Volume/Units)
4.7.3 Polyester-Imide Market 2023-2030 (Volume/Units)
4.7.4 High Temperature Thermoplastics Market 2023-2030 (Volume/Units)
4.7.5 Extreme Temperature Thermoplastics Market 2023-2030 (Volume/Units)
5.Global High Temperature Thermoplastics Market By Temperature Range Market 2023-2030 (Volume/Units)
6.Global High Temperature Thermoplastics Market By End-Use Industry Market 2023-2030 (Volume/Units)
6.1 Transportation Market 2023-2030 (Volume/Units) - Global Industry Research
6.1.1 Automotive Market 2023-2030 (Volume/Units)
6.1.2 Aerospace Market 2023-2030 (Volume/Units)
6.2 Electrical & Electronics Market 2023-2030 (Volume/Units) - Global Industry Research
6.2.1 Telecommunication Market 2023-2030 (Volume/Units)
6.2.2 Semiconductors Market 2023-2030 (Volume/Units)
6.2.3 Electronic Components Market 2023-2030 (Volume/Units)
6.2.4 Display Market 2023-2030 (Volume/Units)
6.2.5 Defense Electronics Market 2023-2030 (Volume/Units)
6.3 Industrial Market 2023-2030 (Volume/Units) - Global Industry Research
6.3.1 Oil & Gas Market 2023-2030 (Volume/Units)
6.3.2 Chemical Processing Market 2023-2030 (Volume/Units)
6.3.3 Power Plant Market 2023-2030 (Volume/Units)
6.3.4 Water Treatment Market 2023-2030 (Volume/Units)
6.4 Medical Market 2023-2030 (Volume/Units) - Global Industry Research
6.4.1 Pharmaceutical & Biotechnology Market 2023-2030 (Volume/Units)
6.4.2 Surgical Equipment Market 2023-2030 (Volume/Units)
6.4.3 Diagnostic Market 2023-2030 (Volume/Units)
6.4.4 Therapeutic System Market 2023-2030 (Volume/Units)
6.4.5 Dental Market 2023-2030 (Volume/Units)
7.North America High Temperature Thermoplastics Market By Resin Market 2023-2030 ($M)
7.1 High Temperature Fluoropolymers Market 2023-2030 ($M) - Regional Industry Research
7.1.1 Polytetrafluoroethylene Market 2023-2030 ($M)
7.1.2 Fluorinated Ethylene Propylene Market 2023-2030 ($M)
7.1.3 Fluoroelastomers Market 2023-2030 ($M)
7.2 High Performance Polyamide Market 2023-2030 ($M) - Regional Industry Research
7.2.1 Polyphthalamide Market 2023-2030 ($M)
7.2.2 Polyacrylamide Market 2023-2030 ($M)
7.3 Polyphenylene Sulfide Market 2023-2030 ($M) - Regional Industry Research
7.4 Sulfone Polymers Market 2023-2030 ($M) - Regional Industry Research
7.4.1 Poly Sulfone Market 2023-2030 ($M)
7.4.2 Polyether Sulfone Market 2023-2030 ($M)
7.4.3 Polyphenylsulfone Market 2023-2030 ($M)
7.5 Liquid Crystal Polymers Market 2023-2030 ($M) - Regional Industry Research
7.6 Aromatic Ketone Polymers Market 2023-2030 ($M) - Regional Industry Research
7.6.1 Polyether Ether Ketone Market 2023-2030 ($M)
7.6.2 Polyether Ketone Market 2023-2030 ($M)
7.6.3 Polyetherketoneketone Market 2023-2030 ($M)
7.7 Polyimides Market 2023-2030 ($M) - Regional Industry Research
7.7.1 Polyether-Imide Market 2023-2030 ($M)
7.7.2 Polyamide-Imide Market 2023-2030 ($M)
7.7.3 Polyester-Imide Market 2023-2030 ($M)
7.7.4 High Temperature Thermoplastics Market 2023-2030 ($M)
7.7.5 Extreme Temperature Thermoplastics Market 2023-2030 ($M)
8.North America High Temperature Thermoplastics Market By Temperature Range Market 2023-2030 ($M)
9.North America High Temperature Thermoplastics Market By End-Use Industry Market 2023-2030 ($M)
9.1 Transportation Market 2023-2030 ($M) - Regional Industry Research
9.1.1 Automotive Market 2023-2030 ($M)
9.1.2 Aerospace Market 2023-2030 ($M)
9.2 Electrical & Electronics Market 2023-2030 ($M) - Regional Industry Research
9.2.1 Telecommunication Market 2023-2030 ($M)
9.2.2 Semiconductors Market 2023-2030 ($M)
9.2.3 Electronic Components Market 2023-2030 ($M)
9.2.4 Display Market 2023-2030 ($M)
9.2.5 Defense Electronics Market 2023-2030 ($M)
9.3 Industrial Market 2023-2030 ($M) - Regional Industry Research
9.3.1 Oil & Gas Market 2023-2030 ($M)
9.3.2 Chemical Processing Market 2023-2030 ($M)
9.3.3 Power Plant Market 2023-2030 ($M)
9.3.4 Water Treatment Market 2023-2030 ($M)
9.4 Medical Market 2023-2030 ($M) - Regional Industry Research
9.4.1 Pharmaceutical & Biotechnology Market 2023-2030 ($M)
9.4.2 Surgical Equipment Market 2023-2030 ($M)
9.4.3 Diagnostic Market 2023-2030 ($M)
9.4.4 Therapeutic System Market 2023-2030 ($M)
9.4.5 Dental Market 2023-2030 ($M)
10.South America High Temperature Thermoplastics Market By Resin Market 2023-2030 ($M)
10.1 High Temperature Fluoropolymers Market 2023-2030 ($M) - Regional Industry Research
10.1.1 Polytetrafluoroethylene Market 2023-2030 ($M)
10.1.2 Fluorinated Ethylene Propylene Market 2023-2030 ($M)
10.1.3 Fluoroelastomers Market 2023-2030 ($M)
10.2 High Performance Polyamide Market 2023-2030 ($M) - Regional Industry Research
10.2.1 Polyphthalamide Market 2023-2030 ($M)
10.2.2 Polyacrylamide Market 2023-2030 ($M)
10.3 Polyphenylene Sulfide Market 2023-2030 ($M) - Regional Industry Research
10.4 Sulfone Polymers Market 2023-2030 ($M) - Regional Industry Research
10.4.1 Poly Sulfone Market 2023-2030 ($M)
10.4.2 Polyether Sulfone Market 2023-2030 ($M)
10.4.3 Polyphenylsulfone Market 2023-2030 ($M)
10.5 Liquid Crystal Polymers Market 2023-2030 ($M) - Regional Industry Research
10.6 Aromatic Ketone Polymers Market 2023-2030 ($M) - Regional Industry Research
10.6.1 Polyether Ether Ketone Market 2023-2030 ($M)
10.6.2 Polyether Ketone Market 2023-2030 ($M)
10.6.3 Polyetherketoneketone Market 2023-2030 ($M)
10.7 Polyimides Market 2023-2030 ($M) - Regional Industry Research
10.7.1 Polyether-Imide Market 2023-2030 ($M)
10.7.2 Polyamide-Imide Market 2023-2030 ($M)
10.7.3 Polyester-Imide Market 2023-2030 ($M)
10.7.4 High Temperature Thermoplastics Market 2023-2030 ($M)
10.7.5 Extreme Temperature Thermoplastics Market 2023-2030 ($M)
11.South America High Temperature Thermoplastics Market By Temperature Range Market 2023-2030 ($M)
12.South America High Temperature Thermoplastics Market By End-Use Industry Market 2023-2030 ($M)
12.1 Transportation Market 2023-2030 ($M) - Regional Industry Research
12.1.1 Automotive Market 2023-2030 ($M)
12.1.2 Aerospace Market 2023-2030 ($M)
12.2 Electrical & Electronics Market 2023-2030 ($M) - Regional Industry Research
12.2.1 Telecommunication Market 2023-2030 ($M)
12.2.2 Semiconductors Market 2023-2030 ($M)
12.2.3 Electronic Components Market 2023-2030 ($M)
12.2.4 Display Market 2023-2030 ($M)
12.2.5 Defense Electronics Market 2023-2030 ($M)
12.3 Industrial Market 2023-2030 ($M) - Regional Industry Research
12.3.1 Oil & Gas Market 2023-2030 ($M)
12.3.2 Chemical Processing Market 2023-2030 ($M)
12.3.3 Power Plant Market 2023-2030 ($M)
12.3.4 Water Treatment Market 2023-2030 ($M)
12.4 Medical Market 2023-2030 ($M) - Regional Industry Research
12.4.1 Pharmaceutical & Biotechnology Market 2023-2030 ($M)
12.4.2 Surgical Equipment Market 2023-2030 ($M)
12.4.3 Diagnostic Market 2023-2030 ($M)
12.4.4 Therapeutic System Market 2023-2030 ($M)
12.4.5 Dental Market 2023-2030 ($M)
13.Europe High Temperature Thermoplastics Market By Resin Market 2023-2030 ($M)
13.1 High Temperature Fluoropolymers Market 2023-2030 ($M) - Regional Industry Research
13.1.1 Polytetrafluoroethylene Market 2023-2030 ($M)
13.1.2 Fluorinated Ethylene Propylene Market 2023-2030 ($M)
13.1.3 Fluoroelastomers Market 2023-2030 ($M)
13.2 High Performance Polyamide Market 2023-2030 ($M) - Regional Industry Research
13.2.1 Polyphthalamide Market 2023-2030 ($M)
13.2.2 Polyacrylamide Market 2023-2030 ($M)
13.3 Polyphenylene Sulfide Market 2023-2030 ($M) - Regional Industry Research
13.4 Sulfone Polymers Market 2023-2030 ($M) - Regional Industry Research
13.4.1 Poly Sulfone Market 2023-2030 ($M)
13.4.2 Polyether Sulfone Market 2023-2030 ($M)
13.4.3 Polyphenylsulfone Market 2023-2030 ($M)
13.5 Liquid Crystal Polymers Market 2023-2030 ($M) - Regional Industry Research
13.6 Aromatic Ketone Polymers Market 2023-2030 ($M) - Regional Industry Research
13.6.1 Polyether Ether Ketone Market 2023-2030 ($M)
13.6.2 Polyether Ketone Market 2023-2030 ($M)
13.6.3 Polyetherketoneketone Market 2023-2030 ($M)
13.7 Polyimides Market 2023-2030 ($M) - Regional Industry Research
13.7.1 Polyether-Imide Market 2023-2030 ($M)
13.7.2 Polyamide-Imide Market 2023-2030 ($M)
13.7.3 Polyester-Imide Market 2023-2030 ($M)
13.7.4 High Temperature Thermoplastics Market 2023-2030 ($M)
13.7.5 Extreme Temperature Thermoplastics Market 2023-2030 ($M)
14.Europe High Temperature Thermoplastics Market By Temperature Range Market 2023-2030 ($M)
15.Europe High Temperature Thermoplastics Market By End-Use Industry Market 2023-2030 ($M)
15.1 Transportation Market 2023-2030 ($M) - Regional Industry Research
15.1.1 Automotive Market 2023-2030 ($M)
15.1.2 Aerospace Market 2023-2030 ($M)
15.2 Electrical & Electronics Market 2023-2030 ($M) - Regional Industry Research
15.2.1 Telecommunication Market 2023-2030 ($M)
15.2.2 Semiconductors Market 2023-2030 ($M)
15.2.3 Electronic Components Market 2023-2030 ($M)
15.2.4 Display Market 2023-2030 ($M)
15.2.5 Defense Electronics Market 2023-2030 ($M)
15.3 Industrial Market 2023-2030 ($M) - Regional Industry Research
15.3.1 Oil & Gas Market 2023-2030 ($M)
15.3.2 Chemical Processing Market 2023-2030 ($M)
15.3.3 Power Plant Market 2023-2030 ($M)
15.3.4 Water Treatment Market 2023-2030 ($M)
15.4 Medical Market 2023-2030 ($M) - Regional Industry Research
15.4.1 Pharmaceutical & Biotechnology Market 2023-2030 ($M)
15.4.2 Surgical Equipment Market 2023-2030 ($M)
15.4.3 Diagnostic Market 2023-2030 ($M)
15.4.4 Therapeutic System Market 2023-2030 ($M)
15.4.5 Dental Market 2023-2030 ($M)
16.APAC High Temperature Thermoplastics Market By Resin Market 2023-2030 ($M)
16.1 High Temperature Fluoropolymers Market 2023-2030 ($M) - Regional Industry Research
16.1.1 Polytetrafluoroethylene Market 2023-2030 ($M)
16.1.2 Fluorinated Ethylene Propylene Market 2023-2030 ($M)
16.1.3 Fluoroelastomers Market 2023-2030 ($M)
16.2 High Performance Polyamide Market 2023-2030 ($M) - Regional Industry Research
16.2.1 Polyphthalamide Market 2023-2030 ($M)
16.2.2 Polyacrylamide Market 2023-2030 ($M)
16.3 Polyphenylene Sulfide Market 2023-2030 ($M) - Regional Industry Research
16.4 Sulfone Polymers Market 2023-2030 ($M) - Regional Industry Research
16.4.1 Poly Sulfone Market 2023-2030 ($M)
16.4.2 Polyether Sulfone Market 2023-2030 ($M)
16.4.3 Polyphenylsulfone Market 2023-2030 ($M)
16.5 Liquid Crystal Polymers Market 2023-2030 ($M) - Regional Industry Research
16.6 Aromatic Ketone Polymers Market 2023-2030 ($M) - Regional Industry Research
16.6.1 Polyether Ether Ketone Market 2023-2030 ($M)
16.6.2 Polyether Ketone Market 2023-2030 ($M)
16.6.3 Polyetherketoneketone Market 2023-2030 ($M)
16.7 Polyimides Market 2023-2030 ($M) - Regional Industry Research
16.7.1 Polyether-Imide Market 2023-2030 ($M)
16.7.2 Polyamide-Imide Market 2023-2030 ($M)
16.7.3 Polyester-Imide Market 2023-2030 ($M)
16.7.4 High Temperature Thermoplastics Market 2023-2030 ($M)
16.7.5 Extreme Temperature Thermoplastics Market 2023-2030 ($M)
17.APAC High Temperature Thermoplastics Market By Temperature Range Market 2023-2030 ($M)
18.APAC High Temperature Thermoplastics Market By End-Use Industry Market 2023-2030 ($M)
18.1 Transportation Market 2023-2030 ($M) - Regional Industry Research
18.1.1 Automotive Market 2023-2030 ($M)
18.1.2 Aerospace Market 2023-2030 ($M)
18.2 Electrical & Electronics Market 2023-2030 ($M) - Regional Industry Research
18.2.1 Telecommunication Market 2023-2030 ($M)
18.2.2 Semiconductors Market 2023-2030 ($M)
18.2.3 Electronic Components Market 2023-2030 ($M)
18.2.4 Display Market 2023-2030 ($M)
18.2.5 Defense Electronics Market 2023-2030 ($M)
18.3 Industrial Market 2023-2030 ($M) - Regional Industry Research
18.3.1 Oil & Gas Market 2023-2030 ($M)
18.3.2 Chemical Processing Market 2023-2030 ($M)
18.3.3 Power Plant Market 2023-2030 ($M)
18.3.4 Water Treatment Market 2023-2030 ($M)
18.4 Medical Market 2023-2030 ($M) - Regional Industry Research
18.4.1 Pharmaceutical & Biotechnology Market 2023-2030 ($M)
18.4.2 Surgical Equipment Market 2023-2030 ($M)
18.4.3 Diagnostic Market 2023-2030 ($M)
18.4.4 Therapeutic System Market 2023-2030 ($M)
18.4.5 Dental Market 2023-2030 ($M)
19.MENA High Temperature Thermoplastics Market By Resin Market 2023-2030 ($M)
19.1 High Temperature Fluoropolymers Market 2023-2030 ($M) - Regional Industry Research
19.1.1 Polytetrafluoroethylene Market 2023-2030 ($M)
19.1.2 Fluorinated Ethylene Propylene Market 2023-2030 ($M)
19.1.3 Fluoroelastomers Market 2023-2030 ($M)
19.2 High Performance Polyamide Market 2023-2030 ($M) - Regional Industry Research
19.2.1 Polyphthalamide Market 2023-2030 ($M)
19.2.2 Polyacrylamide Market 2023-2030 ($M)
19.3 Polyphenylene Sulfide Market 2023-2030 ($M) - Regional Industry Research
19.4 Sulfone Polymers Market 2023-2030 ($M) - Regional Industry Research
19.4.1 Poly Sulfone Market 2023-2030 ($M)
19.4.2 Polyether Sulfone Market 2023-2030 ($M)
19.4.3 Polyphenylsulfone Market 2023-2030 ($M)
19.5 Liquid Crystal Polymers Market 2023-2030 ($M) - Regional Industry Research
19.6 Aromatic Ketone Polymers Market 2023-2030 ($M) - Regional Industry Research
19.6.1 Polyether Ether Ketone Market 2023-2030 ($M)
19.6.2 Polyether Ketone Market 2023-2030 ($M)
19.6.3 Polyetherketoneketone Market 2023-2030 ($M)
19.7 Polyimides Market 2023-2030 ($M) - Regional Industry Research
19.7.1 Polyether-Imide Market 2023-2030 ($M)
19.7.2 Polyamide-Imide Market 2023-2030 ($M)
19.7.3 Polyester-Imide Market 2023-2030 ($M)
19.7.4 High Temperature Thermoplastics Market 2023-2030 ($M)
19.7.5 Extreme Temperature Thermoplastics Market 2023-2030 ($M)
20.MENA High Temperature Thermoplastics Market By Temperature Range Market 2023-2030 ($M)
21.MENA High Temperature Thermoplastics Market By End-Use Industry Market 2023-2030 ($M)
21.1 Transportation Market 2023-2030 ($M) - Regional Industry Research
21.1.1 Automotive Market 2023-2030 ($M)
21.1.2 Aerospace Market 2023-2030 ($M)
21.2 Electrical & Electronics Market 2023-2030 ($M) - Regional Industry Research
21.2.1 Telecommunication Market 2023-2030 ($M)
21.2.2 Semiconductors Market 2023-2030 ($M)
21.2.3 Electronic Components Market 2023-2030 ($M)
21.2.4 Display Market 2023-2030 ($M)
21.2.5 Defense Electronics Market 2023-2030 ($M)
21.3 Industrial Market 2023-2030 ($M) - Regional Industry Research
21.3.1 Oil & Gas Market 2023-2030 ($M)
21.3.2 Chemical Processing Market 2023-2030 ($M)
21.3.3 Power Plant Market 2023-2030 ($M)
21.3.4 Water Treatment Market 2023-2030 ($M)
21.4 Medical Market 2023-2030 ($M) - Regional Industry Research
21.4.1 Pharmaceutical & Biotechnology Market 2023-2030 ($M)
21.4.2 Surgical Equipment Market 2023-2030 ($M)
21.4.3 Diagnostic Market 2023-2030 ($M)
21.4.4 Therapeutic System Market 2023-2030 ($M)
21.4.5 Dental Market 2023-2030 ($M)
LIST OF FIGURES
1.US High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)2.Canada High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
3.Mexico High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
4.Brazil High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
5.Argentina High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
6.Peru High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
7.Colombia High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
8.Chile High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
9.Rest of South America High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
10.UK High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
11.Germany High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
12.France High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
13.Italy High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
14.Spain High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
15.Rest of Europe High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
16.China High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
17.India High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
18.Japan High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
19.South Korea High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
20.South Africa High Temperature Thermoplastics Market Revenue, 2023-2030 ($M)
21.North America High Temperature Thermoplastics By Application
22.South America High Temperature Thermoplastics By Application
23.Europe High Temperature Thermoplastics By Application
24.APAC High Temperature Thermoplastics By Application
25.MENA High Temperature Thermoplastics By Application
26.Solvay, Sales /Revenue, 2015-2018 ($Mn/$Bn)
27.Dowdupont, Sales /Revenue, 2015-2018 ($Mn/$Bn)
28.Celanese Corporation, Sales /Revenue, 2015-2018 ($Mn/$Bn)
29.BASF, Sales /Revenue, 2015-2018 ($Mn/$Bn)
30.Arkema S.A., Sales /Revenue, 2015-2018 ($Mn/$Bn)
31.Royal Dsm, Sales /Revenue, 2015-2018 ($Mn/$Bn)
32.Sabic, Sales /Revenue, 2015-2018 ($Mn/$Bn)
33.Victrex, Sales /Revenue, 2015-2018 ($Mn/$Bn)
34.Evonik Industries, Sales /Revenue, 2015-2018 ($Mn/$Bn)
35.Toray Industries Inc., Sales /Revenue, 2015-2018 ($Mn/$Bn)