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Engineering Plastics Market reports and Global Analysis

Engineering Plastics Market reports and Global Analysis

Engineering Plastics , Industry Analysis Report, Regional Outlook, Application Development, Growth Potential, Price Trends, Competitive Market Share & Forecast, 2025 ? 2035, Chem Reports

Global analysis of the engineering plastics market including market trends, applications, and growth forecasts.

Pages: 160

Format: PDF

Date: 11-2025

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Description Table of Content Key Players & Segment Request for Free Sample

Market Overview

The Engineering Plastics market is projected to grow steadily, increasing from USD XX million in 2025 to USD XX million by 2035, at an estimated CAGR of XX%. The study considers 2024 as the base year, with market forecasts provided for the period 2025 to 2035. The primary aim of this report is to provide a comprehensive understanding of the market landscape, including its definition, segmentation, growth potential, key trends, and major challenges influencing its development. Extensive research and detailed analysis were conducted to ensure that the insights and data presented are accurate and reliable. Information included in this study has been gathered from credible industry sources and validated by experts. Additionally, the use of charts, graphs, and various pictorial representations enhances clarity and makes complex market information easier for readers to interpret.

Engineering Plastics Market —Segmentation

1. By Type

  • Polycarbonate (PC)
  • Polyamide (PA 6, PA 66, specialty PA)
  • Polyacetal (POM)
  • Polybutylene Terephthalate (PBT)
  • Polyethylene Terephthalate (PET)
  • Acrylonitrile Butadiene Styrene (ABS)
  • Styrene-Acrylonitrile (SAN)
  • Thermoplastic Polyurethane (TPU)
  • Polysulfone (PSU), PPSU, PES
  • Polyetheretherketone (PEEK) and high-performance polymers
  • Others (PEI, LCP, fluoropolymers)

2. By Manufacturing Process

  • Injection molding
  • Extrusion
  • Blow molding
  • Thermoforming
  • Compression molding
  • 3D printing / additive manufacturing

3. By Application

Automotive & Transportation

  • Interior/exterior components
  • Under-the-hood parts
  • Electrical systems

Electrical & Electronics

  • Connectors
  • Circuit protection components
  • Enclosures & housings

Building & Construction

  • Profiles
  • Panels
  • Insulation materials

Consumer Goods

  • Appliances
  • Wearables
  • Sporting goods

Industrial Machinery

  • Bearings & gears
  • Valves & seals
  • Structural components

Medical & Healthcare

  • Surgical instruments
  • Diagnostic equipment
  • Sterilizable components

4. By End-use Industry

  • Automotive
  • Electrical & Electronics
  • Packaging
  • Industrial Machinery
  • Medical Devices
  • Consumer Durables
  • Aerospace
  • Construction

Key Players in the Engineering Plastics Market

Global Leaders

  • BASF SE
  • SABIC
  • Covestro AG
  • DuPont de Nemours
  • Celanese Corporation
  • Evonik Industries AG
  • DSM Engineering Materials
  • LANXESS AG
  • Mitsubishi Engineering-Plastics Corporation
  • Toray Industries, Inc.

Regional & Specialized Players

  • Chi Mei Corporation
  • LG Chem
  • Formosa Plastics Corporation
  • Asahi Kasei Corporation
  • Teijin Limited
  • Solvay
  • RTP Company (compounder)

These companies compete on performance innovation, polymer portfolio diversity, cost competitiveness, sustainability initiatives, and global supply capabilities.

Regional Analysis

1. North America

  • Strong demand from automotive, aerospace, medical devices, and electronics sectors.
  • Adoption of lightweight materials for improved fuel efficiency and EV production growth.
  • Mature processing technologies and strong presence of multinational polymer manufacturers.

2. Europe

  • High uptake in automotive engineering plastics due to stringent emission and lightweighting standards.
  • Strong demand from industrial machinery and electrical sectors.
  • Increasing focus on recycling, bio-based engineering plastics, and circular-economy initiatives.

3. Asia-Pacific (Largest Market Globally)

  • China, Japan, South Korea, and India are major consumers and producers of engineering plastics.
  • Rapid industrialization, automotive production growth, and rising electronics manufacturing.
  • Expanding packaging and consumer goods industries boost market demand.

4. Latin America

  • Moderate market driven by automotive assembly, home appliances, and industrial sectors.
  • Brazil and Mexico are key contributors, supported by expanding manufacturing capabilities.

5. Middle East & Africa

  • Growing demand from construction, industrial, and packaging applications.
  • Investments in petrochemical industries increase polymer production capacity.
  • Rising consumer goods manufacturing supports market growth.

Market Drivers & Restraints

Market Drivers

  1. Rising Demand for Lightweight Materials
    Engineering plastics increasingly replace metals in automotive, aerospace, and electronics due to their high strength-to-weight ratio, improving efficiency and performance.
  2. Growth in Electrical & Electronics Sector
    Miniaturization of devices and demand for high-heat, high-durability polymers drive consumption of engineering plastics like PC, PBT, PPS, and PEEK.
  3. Expansion of Automotive & EV Manufacturing
    Engineering plastics are essential for EV battery components, connectors, sensors, and structural parts, supporting growth as the EV market accelerates.
  4. Industrial Automation & Machinery Growth
    Need for precision, friction-resistant, and durable components boosts use in gears, bearings, valves, and housings.
  5. Superior Mechanical & Thermal Properties
    Engineering plastics offer chemical resistance, high impact strength, dimensional stability, and electrical insulation, driving adoption across industries.
  6. Focus on Sustainability & Recyclability
    Increasing development of bio-based and recyclable engineering plastics expands market opportunities.

Market Restraints

  1. High Production & Raw Material Costs
    Engineering plastics are costlier than commodity plastics, limiting their use in low-margin or price-sensitive applications.
  2. Competition from Advanced Composites & Metals
    In some high-performance use cases, composites, aluminum alloys, and specialty metals compete directly with engineering plastics.
  3. Processing and Technical Limitations
    Some polymers require high-temperature processing, specialized equipment, or additives, increasing manufacturing complexity.
  4. Environmental & Regulatory Challenges
    Restrictions on certain chemicals, additives, and waste disposal regulations may impact product formulations and production costs.
  5. Volatile Oil & Petrochemical Prices
    Engineering plastics depend heavily on petrochemical feedstocks, exposing manufacturers to cost fluctuations.

Trends & Opportunities

Key Trends

  1. Shift Toward High-Performance Polymers (HPPs)
    Rising adoption of PEEK, PPS, PSU, and LCP in medical devices, aerospace, electronics, and EV systems.
  2. Increased Use of Engineering Plastics in EVs
    EV battery housings, thermal management systems, and electrical insulation components are major growth avenues.
  3. Advanced Compounding & Material Blends
    Tailored polymer blends improve heat resistance, flame retardancy, and mechanical strength for specialized applications.
  4. 3D Printing & Additive Manufacturing
    Engineering polymers are increasingly used in high-performance additive manufacturing due to superior mechanical properties.
  5. Circular Economy & Bio-Based Alternatives
    Growing interest in recycled engineering plastics and bio-based engineering polymers for sustainability and compliance.

Opportunities

  1. Expansion in Medical & Healthcare Applications
    Sterilizable plastics like PEEK and PPSU are increasingly used in surgical tools, orthopedics, and diagnostic devices.
  2. Growth in Smart Electronics & IoT Devices
    Engineering plastics offer insulation, heat resistance, and design flexibility ideal for compact electronics.
  3. Penetration into Aerospace & Defense
    High-performance plastics reduce weight, improve fuel efficiency, and provide durability in extreme conditions.
  4. Urbanization & Construction Growth
    Demand increases for engineering polymers in pipes, profiles, glazing, and insulation materials.
  5. Customized Polymer Solutions
    Tailor-made formulations for niche industrial applications create opportunities for specialized compounders.

Competitive Landscape Matrix

Company

Strengths

Product Focus

Strategic Positioning

BASF SE

Large portfolio, strong R&D, global manufacturing

PA, PBT, POM, high-performance polymers

Leading supplier with broad application coverage and strong technical support

SABIC

Strong polymer development capability, global supply

PC, PC blends, specialty engineering resins

Major supplier in automotive, electronics, and construction sectors

Covestro AG

Expertise in polycarbonate chemistry

PC, TPU, specialty blends

Focused on high-tech applications and sustainability-driven materials

DuPont

Strong in specialty & high-performance polymers

PEEK, PPS, LCP, specialty nylons

Premium materials for electronics, aerospace, and industrial markets

Celanese Corporation

Strong compounding expertise

POM, PA, PBT, engineered compounds

Positioned as a leader in engineered polymer solutions and custom compounds

Evonik Industries

Expertise in specialty polymers

High-performance polymers (PEEK, PA12, PMMA)

Focus on lightweighting, medical, and industrial components

LANXESS

Strength in specialty nylons & compounds

PA66, PBT, high-performance plastics

Serves automotive and electrical applications with engineering solutions

Toray Industries

Strong materials science capability

PA, PBT, CFRP-related engineering plastics

Active in automotive, electronics, aerospace, and industrial markets

SWOT Analysis for Key Players

1. BASF SE — SWOT

Strengths

  • Broad product portfolio across multiple engineering plastics
  • Strong global distribution and customer support
  • Extensive R&D and innovation capabilities

Weaknesses

  • Large global footprint increases operational complexity
  • Higher production costs for specialty polymers

Opportunities

  • Growth in EVs, electronics, and industrial automation
  • Development of sustainable and recycled engineering plastics

Threats

  • Intense competition from both global leaders and regional manufacturers
  • Regulatory changes affecting chemical formulations

2. SABIC — SWOT

Strengths

  • Strong expertise in polycarbonate and specialty resins
  • Robust presence in automotive and construction sectors

Weaknesses

  • Heavy dependence on petrochemical feedstocks
  • High exposure to energy and raw-material price fluctuations

Opportunities

  • Rising demand for lightweight automotive materials
  • Expansion in electronics and building materials markets

Threats

  • Market pressure from global polymer suppliers
  • Transition toward bio-based polymers creating competitive shifts

3. Covestro AG — SWOT

Strengths

  • Leader in advanced polycarbonates and TPU technologies
  • Strong sustainability and innovation-driven strategy

Weaknesses

  • Narrower product range compared to multi-segment chemical giants

Opportunities

  • Growth in high-tech electronics, medical devices, and EV components
  • Increased demand for recyclable and low-carbon materials

Threats

  • Price-sensitive markets limiting premium product expansion
  • Rapid technological evolution of alternative materials

4. DuPont — SWOT

Strengths

  • Strong portfolio of high-performance polymers like PEEK, PPS, and LCP
  • Deep penetration in aerospace, electronics, and specialty industrial sectors

Weaknesses

  • Higher pricing may restrict adoption in cost-sensitive industries

Opportunities

  • Miniaturization trends in electronics
  • Growth in aerospace, defense, and surgical tools

Threats

  • Rising competition from low-cost Asian manufacturers
  • Innovations in composite materials offering alternatives

5. Celanese Corporation — SWOT

Strengths

  • Strong compounding and customization capabilities
  • Leading producer of POM and engineered compounds

Weaknesses

  • Limited presence in ultra-high-performance polymers

Opportunities

  • Increased demand for custom polymer formulations
  • Growing need for engineering plastics in automotive and industrial machinery

Threats

  • Competitive pricing pressures
  • Supply chain disruptions affecting raw materials

Points Covered in The Report:
The points that are discussed within the report are the major market players that are involved in the market such as manufacturers, raw material suppliers, equipment suppliers, end users, traders, distributors and etc.
The complete profile of the companies is mentioned. And the capacity, production, price, revenue, cost, gross, gross margin, sales volume, sales revenue, consumption, growth rate, import, export, supply, future strategies, and the technological developments that they are making are also included within the report. The historical data from 2020 to 2024 and forecast data from 2025 to 2035.
The growth factors of the market is discussed in detail wherein the different end users of the market are explained in detail.
Data and information by manufacturer, by region, by type, by application and etc, and custom research can be added according to specific requirements.
The report contains the SWOT analysis of the market. Finally, the report contains the conclusion part where the opinions of the industrial experts are included.

Key Reasons to Purchase
To gain insightful analyses of the market and have comprehensive understanding of the global  market and its commercial landscape.
Assess the production processes, major issues, and solutions to mitigate the development risk.
To understand the most affecting driving and restraining forces in the market and its impact in the global market.
Learn about the market strategies that are being adopted by leading respective organizations.
To understand the future outlook and prospects for the market.
Besides the standard structure reports, we also provide custom research according to specific requirements.

Chapter 1 Industry Overview
1.1 Definition
1.2 Brief Introduction by Major Type
1.2.1 Polycarbonates
1.2.2 Thermoplastic Polyesters
1.2.3 Polyacetals
1.2.4 Fluoropolymers
1.2.5 Others
1.2.6
1.2.7
1.2.8
1.2.9
1.3 Brief Introduction by Major Application
1.3.1 Consumer Appliances
1.3.2 Electrical & Electronics
1.3.3 Industrial & Machinery
1.3.4 Packaging
1.3.5 Others
1.3.6
1.3.7
1.3.8
1.3.9
1.4 Brief Introduction by Major Regions
1.4.1 United States
1.4.2 Europe
1.4.3 China
1.4.4 Japan
1.4.5 India
1.5 Brief Introduction by Major
1.5.1
1.5.2
1.5.3
1.5.4
1.5.5
1.5.6
1.5.7
1.5.8
1.5.9
1.6 Brief Introduction by Major
1.6.1
1.6.2
1.6.3
1.6.4
1.6.5
1.6.6
1.6.7
1.6.8
1.6.9
1.7 Brief Introduction by Major
1.7.1
1.7.2
1.7.3
1.7.4
1.7.5
1.7.6
1.7.7
1.7.8
1.7.9
1.8 Brief Introduction by Major
1.8.1
1.8.2
1.8.3
1.8.4
1.8.5
1.8.6
1.8.7
1.8.8
1.8.9
Chapter 2 Production Market Analysis
2.1 Global Production Market Analysis
2.1.1  Global Capacity, Production, Capacity Utilization Rate, Ex-Factory Price, Revenue, Cost, Gross and Gross Margin Analysis
2.1.2  Major Manufacturers Performance and Market Share
2.2 Regional Production Market Analysis
2.2.1  Regional Market Performance and Market Share
2.2.2 United States Market
2.2.3 Europe Market
2.2.4 China Market
2.2.5 Japan Market
2.2.6 India Market
2.2.7  Market
Chapter 3 Sales Market Analysis
3.1 Global Sales Market Analysis
3.1.1  Global Sales Volume, Sales Price and Sales Revenue Analysis
3.1.2  Major Manufacturers Performance and Market Share
3.2 Regional Sales Market Analysis
3.2.1  Regional Market Performance and Market Share
3.2.2 United States Market
3.2.3 Europe Market
3.2.4 China Market
3.2.5 Japan Market
3.2.6 India Market
3.2.7  Market
Chapter 4 Consumption Market Analysis
4.1 Global Consumption Market Analysis
4.1.1  Global Consumption Volume Analysis
4.2 Regional Consumption Market Analysis
4.2.1  Regional Market Performance and Market Share
4.2.2 United States Market
4.2.3 Europe Market
4.2.4 China Market
4.2.5 Japan Market
4.2.6 India Market
4.2.7  Market
Chapter 5 Production, Sales and Consumption Market Comparison Analysis
5.1 Global Production, Sales and Consumption Market Comparison Analysis
5.2 Regional Production, Sales Volume and Consumption Volume Market Comparison Analysis
5.2.1 United States
5.2.2 Europe
5.2.3 China
5.2.4 Japan
5.2.5 India
5.2.6
Chapter 6 Major Manufacturers Production and Sales Market Comparison Analysis
6.1 Global Major Manufacturers Production and Sales Market Comparison Analysis
6.1.1  Global Major Manufacturers Production and Sales Market Comparison
6.2 Regional Major Manufacturers Production and Sales Market Comparison Analysis
6.2.1 United States
6.2.2 Europe
6.2.3 China
6.2.4 Japan
6.2.5 India
6.2.6
Chapter 7 Major Type Analysis
7.1  Major Type Market Share
7.2 Polycarbonates
7.3 Thermoplastic Polyesters
7.4 Polyacetals
7.5 Fluoropolymers
7.6 Others
7.7
7.8
7.9
7.10
Chapter 8 Major ApplicationAnalysis
8.1  Major Application Market Share
8.2 Consumer Appliances
8.2.1  Sales Analysis
8.3 Electrical & Electronics
8.3.1  Sales Analysis
8.4 Industrial & Machinery
8.4.1  Sales Analysis
8.5 Packaging
8.5.1  Sales Analysis
8.6 Others
8.6.1  Sales Analysis
8.7
8.7.1  Sales Analysis
8.8
8.8.1  Sales Analysis
8.9
8.9.1  Sales Analysis
8.10
8.11.1  Sales Analysis
Chapter 9 Industry Chain Analysis
9.1 Up Stream Industries Analysis
9.1.1 Raw Material and Suppliers
9.1.2 Equipment and Suppliers
9.2 Manufacturing Analysis
9.2.1 Manufacturing Process
9.2.2 Manufacturing Cost Structure
9.2.3 Manufacturing Plants Distribution Analysis
9.3 Industry Chain Structure Analysis
Chapter 10 Global and Regional Market Forecast
10.1 Production Market Forecast
10.1.1 Global Market Forecast
10.1.2 Major Region Forecast
10.2 Sales Market Forecast
10.2.1 Global Market Forecast
10.2.2 Major Classification Forecast
10.3 Consumption Market Forecast
10.3.1 Global Market Forecast
10.3.2 Major Region Forecast
10.3.3 Major Application Forecast
Chapter 11 Major Manufacturers Analysis
11.1 BASF SE
11.1.1 Company Introduction
11.1.2 Product Specification and Major Types Analysis
11.1.3  Production Market Performance
11.1.4  Sales Market Performance
11.1.5 Contact Information
11.2 Covestro
11.2.1 Company Introduction
11.2.2 Product Specification and Major Types Analysis
11.2.3  Production Market Performance
11.2.4  Sales Market Performance
11.2.5 Contact Information
11.3 Celanese Corporation
11.3.1 Company Introduction
11.3.2 Product Specification and Major Types Analysis
11.3.3  Production Market Performance
11.3.4  Sales Market Performance
11.3.5 Contact Information
11.4 E. I. Du Pont De Nemours and Company
11.4.1 Company Introduction
11.4.2 Product Specification and Major Types Analysis
11.4.3  Production Market Performance
11.4.4  Sales Market Performance
11.4.5 Contact Information
11.5 Solvay SA
11.5.1 Company Introduction
11.5.2 Product Specification and Major Types Analysis
11.5.3  Production Market Performance
11.5.4  Sales Market Performance
11.5.5 Contact Information
11.6 LG Chem
11.6.1 Company Introduction
11.6.2 Product Specification and Major Types Analysis
11.6.3  Production Market Performance
11.6.4  Sales Market Performance
11.6.5 Contact Information
11.7 Sabic
11.7.1 Company Introduction
11.7.2 Product Specification and Major Types Analysis
11.7.3  Production Market Performance
11.7.4  Sales Market Performance
11.7.5 Contact Information
11.8 Evonik Industries AG
11.8.1 Company Introduction
11.8.2 Product Specification and Major Types Analysis
11.8.3  Production Market Performance
11.8.4  Sales Market Performance
11.8.5 Contact Information
11.9 Lanxess AG
11.9.1 Company Introduction
11.9.2 Product Specification and Major Types Analysis
11.9.3  Production Market Performance
11.9.4  Sales Market Performance
11.9.5 Contact Information
11.10 Mitsubishi Engineering -Plastic Corporation
11.10.1 Company Introduction
11.10.2 Product Specification and Major Types Analysis
11.10.3  Production Market Performance
11.10.4  Sales Market Performance
11.10.5 Contact Information
11.11
11.11.1 Company Introduction
11.11.2 Product Specification and Major Types Analysis
11.11.3  Production Market Performance
11.11.4  Sales Market Performance
11.11.5 Contact Information
11.12
11.12.1 Company Introduction
11.12.2 Product Specification and Major Types Analysis
11.12.3  Production Market Performance
11.12.4  Sales Market Performance
11.12.5 Contact Information
11.13
11.13.1 Company Introduction
11.13.2 Product Specification and Major Types Analysis
11.13.3  Production Market Performance
11.13.4  Sales Market Performance
11.13.5 Contact Information
11.14
11.14.1 Company Introduction
11.14.2 Product Specification and Major Types Analysis
11.14.3  Production Market Performance
11.14.4  Sales Market Performance
11.14.5 Contact Information
11.15
11.15.1 Company Introduction
11.15.2 Product Specification and Major Types Analysis
11.15.3  Production Market Performance
11.15.4  Sales Market Performance
11.15.5 Contact Information
11.16
11.16.1 Company Introduction
11.16.2 Product Specification and Major Types Analysis
11.16.3  Production Market Performance
11.16.4  Sales Market Performance
11.16.5 Contact Information
11.17
11.17.1 Company Introduction
11.17.2 Product Specification and Major Types Analysis
11.17.3  Production Market Performance
11.17.4  Sales Market Performance
11.17.5 Contact Information
11.18
11.18.1 Company Introduction
11.18.2 Product Specification and Major Types Analysis
11.18.3  Production Market Performance
11.18.4  Sales Market Performance
11.18.5 Contact Information
11.19
11.19.1 Company Introduction
11.19.2 Product Specification and Major Types Analysis
11.19.3  Production Market Performance
11.19.4  Sales Market Performance
11.19.5 Contact Information
11.20
11.20.1 Company Introduction
11.20.2 Product Specification and Major Types Analysis
11.20.3  Production Market Performance
11.20.4  Sales Market Performance
11.20.5 Contact Information
11.21

11.21.1 Company Introduction
11.21.2 Product Specification and Major Types Analysis
11.21.3  Production Market Performance
11.21.4  Sales Market Performance
11.21.5 Contact Information
11.22

11.22.1 Company Introduction
11.22.2 Product Specification and Major Types Analysis
11.22.3  Production Market Performance
11.22.4  Sales Market Performance
11.22.5 Contact Information
11.23

11.23.1 Company Introduction
11.23.2 Product Specification and Major Types Analysis
11.23.3  Production Market Performance
11.23.4  Sales Market Performance
11.23.5 Contact Information
11.24

11.24.1 Company Introduction
11.24.2 Product Specification and Major Types Analysis
11.24.3  Production Market Performance
11.24.4  Sales Market Performance
11.24.5 Contact Information
11.25

11.25.1 Company Introduction
11.25.2 Product Specification and Major Types Analysis
11.25.3  Production Market Performance
11.25.4  Sales Market Performance
11.25.5 Contact Information
11.26

11.26.1 Company Introduction
11.26.2 Product Specification and Major Types Analysis
11.26.3  Production Market Performance
11.26.4  Sales Market Performance
11.26.5 Contact Information
11.27

11.27.1 Company Introduction
11.27.2 Product Specification and Major Types Analysis
11.27.3  Production Market Performance
11.27.4  Sales Market Performance
11.27.5 Contact Information
11.28

11.28.1 Company Introduction
11.28.2 Product Specification and Major Types Analysis
11.28.3  Production Market Performance
11.28.4  Sales Market Performance
11.28.5 Contact Information
11.29

11.29.1 Company Introduction
11.29.2 Product Specification and Major Types Analysis
11.29.3  Production Market Performance
11.29.4  Sales Market Performance
11.29.5 Contact Information
11.30

11.30.1 Company Introduction
11.30.2 Product Specification and Major Types Analysis
11.30.3  Production Market Performance
11.30.4  Sales Market Performance
11.30.5 Contact Information
11.31

11.31.1 Company Introduction
11.31.2 Product Specification and Major Types Analysis
11.31.3  Production Market Performance
11.31.4  Sales Market Performance
11.31.5 Contact Information
11.32

11.32.1 Company Introduction
11.32.2 Product Specification and Major Types Analysis
11.32.3  Production Market Performance
11.32.4  Sales Market Performance
11.32.5 Contact Information
11.33

11.33.1 Company Introduction
11.33.2 Product Specification and Major Types Analysis
11.33.3  Production Market Performance
11.33.4  Sales Market Performance
11.33.5 Contact Information
11.34

11.34.1 Company Introduction
11.34.2 Product Specification and Major Types Analysis
11.34.3  Production Market Performance
11.34.4  Sales Market Performance
11.34.5 Contact Information
11.35

11.35.1 Company Introduction
11.35.2 Product Specification and Major Types Analysis
11.35.3  Production Market Performance
11.35.4  Sales Market Performance
11.35.5 Contact Information
11.36

11.36.1 Company Introduction
11.36.2 Product Specification and Major Types Analysis
11.36.3  Production Market Performance
11.36.4  Sales Market Performance
11.36.5 Contact Information
11.37

11.37.1 Company Introduction
11.37.2 Product Specification and Major Types Analysis
11.37.3  Production Market Performance
11.37.4  Sales Market Performance
11.37.5 Contact Information
11.38

11.38.1 Company Introduction
11.38.2 Product Specification and Major Types Analysis
11.38.3  Production Market Performance
11.38.4  Sales Market Performance
11.38.5 Contact Information
11.39

11.39.1 Company Introduction
11.39.2 Product Specification and Major Types Analysis
11.39.3  Production Market Performance
11.39.4  Sales Market Performance
11.39.5 Contact Information
11.40

11.40.1 Company Introduction
11.40.2 Product Specification and Major Types Analysis
11.40.3  Production Market Performance
11.40.4  Sales Market Performance
11.40.5 Contact Information
Chapter 12 New Project Investment Feasibility Analysis
12.1 New Project SWOT Analysis
12.2 New Project Investment Feasibility Analysis
Chapter 13 Conclusions
Chapter 14 Appendix
Author List
Disclosure Section
Research Methodology
Data Source
Interview List
Global Disclaimer

Engineering Plastics Market —Segmentation

1. By Type

  • Polycarbonate (PC)
  • Polyamide (PA 6, PA 66, specialty PA)
  • Polyacetal (POM)
  • Polybutylene Terephthalate (PBT)
  • Polyethylene Terephthalate (PET)
  • Acrylonitrile Butadiene Styrene (ABS)
  • Styrene-Acrylonitrile (SAN)
  • Thermoplastic Polyurethane (TPU)
  • Polysulfone (PSU), PPSU, PES
  • Polyetheretherketone (PEEK) and high-performance polymers
  • Others (PEI, LCP, fluoropolymers)

2. By Manufacturing Process

  • Injection molding
  • Extrusion
  • Blow molding
  • Thermoforming
  • Compression molding
  • 3D printing / additive manufacturing

3. By Application

Automotive & Transportation

  • Interior/exterior components
  • Under-the-hood parts
  • Electrical systems

Electrical & Electronics

  • Connectors
  • Circuit protection components
  • Enclosures & housings

Building & Construction

  • Profiles
  • Panels
  • Insulation materials

Consumer Goods

  • Appliances
  • Wearables
  • Sporting goods

Industrial Machinery

  • Bearings & gears
  • Valves & seals
  • Structural components

Medical & Healthcare

  • Surgical instruments
  • Diagnostic equipment
  • Sterilizable components

4. By End-use Industry

  • Automotive
  • Electrical & Electronics
  • Packaging
  • Industrial Machinery
  • Medical Devices
  • Consumer Durables
  • Aerospace
  • Construction

Key Players in the Engineering Plastics Market

Global Leaders

  • BASF SE
  • SABIC
  • Covestro AG
  • DuPont de Nemours
  • Celanese Corporation
  • Evonik Industries AG
  • DSM Engineering Materials
  • LANXESS AG
  • Mitsubishi Engineering-Plastics Corporation
  • Toray Industries, Inc.

Regional & Specialized Players

  • Chi Mei Corporation
  • LG Chem
  • Formosa Plastics Corporation
  • Asahi Kasei Corporation
  • Teijin Limited
  • Solvay
  • RTP Company (compounder)

These companies compete on performance innovation, polymer portfolio diversity, cost competitiveness, sustainability initiatives, and global supply capabilities.

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