Engineering Plastics Market By Type (Styrene Copolymers, Fluoropolymer, Liquid Crystal Polymer), Application (Structural Components, Functional Parts, Optical Components, Packaging), End-User (Automotive, Electronics And Electrical, Consumer Goods, Aerospace, Construction, Medical Devices), & Region for 2024-2031

Engineering Plastics Market Valuation – 2024-2031

The increasing adoption of engineering plastics in the automotive sector to reduce vehicle weight and improve fuel efficiency is driving market growth. Thus, the growing adoption of engineering plastics surged the growth of market size surpassing USD 97.61 Billion in 2023 to reach a valuation of USD 157.7 Billion by 2031.

The growing electronics industry and increasing demand for high-performance plastics in electrical components are fueling market expansion. Thus, the robust electronics industry enables the market to grow at a CAGR of 6.18% from 2024 to 2031.

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Engineering Plastics Market: Definition/ Overview

Engineering plastics are a class of polymer materials designed to offer superior mechanical and thermal properties compared to standard commodity plastics. These high-performance plastics are specifically engineered to endure challenging physical and environmental conditions, making them ideal for technical applications that demand exceptional durability and resilience. Common types of engineering plastics include polycarbonates, polyamides (nylons), polyacetals, polyether ether ketone (PEEK), and acrylonitrile butadiene styrene (ABS). These materials are known for their strength, durability, chemical resistance, and ability to maintain performance across a wide temperature range.

The versatility of engineering plastics makes them valuable across a broad range of industries. In the automotive sector, they are used in the production of gears, bearings, and fuel systems, contributing to lighter, more fuel-efficient vehicles. In electronics, engineering plastics are essential for producing connectors, housings, and insulation materials due to their excellent electrical insulating properties.

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How the Sustainable and Bio-based Solutions and Growth of the Construction Sector Surge the Growth of the Engineering Plastics Market?

The shift towards sustainable engineering plastics and bio-based alternatives is creating new market opportunities. The European Bioplastics Association reported a 25% increase in bio-based engineering plastics production from 2020 to 2022. Recycled engineering plastics usage grew by 15% annually between 2020-2023, according to the Plastics Industry Association. The construction industry’s demand for durable, lightweight materials is boosting engineering plastics adoption. The U.S. Department of Commerce reported a 28% increase in engineering plastics usage in construction applications from 2020 to 2022. Construction-grade Engineering Plastics Market value grew by USD 2.3 billion between 2020-2023. Engineering plastics in infrastructure projects increased by 17% annually from 2021-2023.

The healthcare sector’s growing demand for specialized engineering plastics is driving market expansion. The Medical Device Manufacturing Association reported a 32% increase in engineering plastics usage in medical devices from 2020 to 2023. Healthcare-grade engineering plastics demand grew at a CAGR of 9.2% during 2020-2023. The aerospace sector’s demand for high-performance materials is stimulating Engineering Plastics Market growth. The Aerospace Industries Association reported a 15% increase in engineering plastics usage in aircraft components from 2020 to 2022. Engineering plastics in aerospace applications grew at a CAGR of 6.5% during 2020-2023. The market share of aerospace-grade engineering plastics increased by 22% between 2020 and 2023.

How the Environmental Concerns and Recycling Challenges Hamper the Growth of Engineering Plastics Market?

The limited recyclability and environmental impact of engineering plastics pose significant market challenges. The Environmental Protection Agency reported that only 29% of engineering plastics were successfully recycled in 2022, compared to 45% for conventional plastics. According to Plastics Recyclers Europe, the cost of recycling engineering plastics is 2.3 times higher than standard plastics due to complex compositions. The World Bank’s 2023 report indicated that engineering plastics contribute to approximately 12% of plastic waste in oceans, with a decomposition period ranging from 30 to 450 years. Certain applications face limitations due to technical properties and performance boundaries. The Materials Research Society documented that 23% of engineering plastics applications faced temperature resistance limitations in 2022.

Fluctuating prices of raw materials and petrochemical feedstock impact market growth. The U.S. Bureau of Labor Statistics reported a 34% increase in raw material costs for engineering plastics between 2020 and 2022. According to the American Chemistry Council, petroleum-based feedstock prices fluctuated by ±25% during 2021-2023. The European Chemical Industry Council documented a 28% increase in production costs due to raw material volatility in 2022. The complex manufacturing processes and specialized equipment requirements create cost barriers. The Society of Plastics Engineers reported that engineering plastics production costs were 40-60% higher than conventional plastics in 2022. Manufacturing equipment investments increased by 45% from 2020 to 2023, according to the Plastics Industry Association. Energy costs for engineering plastics production rose by 32% between 2021-2023, as reported by the International Energy Agency.

Category-Wise Acumens

How the Rising Demand for Lightweight and Durable Materials Surge the Growth of Automotive and Transportation Segment?

 The automotive and transportation segment led the Engineering Plastics Market, driven by the increasing demand for lightweight, durable materials that enhance fuel efficiency and vehicle performance. Engineering plastics, known for their strength, flexibility, and light weight, have become essential in automotive applications where reducing weight is critical to improving fuel economy and lowering emissions. By replacing traditional materials like metal and glass, engineering plastics not only reduce overall vehicle weight but also offer design flexibility, lower production costs, and improved manufacturing efficiency.

The rise in electric and hybrid vehicle production has further fueled the demand for engineering plastics. These vehicles rely heavily on lightweight materials to maximize energy efficiency and extend battery life. Engineering plastics are also well-suited for automotive electrical and electronic components due to their excellent electrical insulating properties, which are crucial for ensuring the reliability and safety of sensitive systems.

In addition to weight reduction, engineering plastics contribute to advancements in safety, aesthetics, and performance. Their resistance to heat, chemicals, and impact makes them ideal for critical automotive parts like fuel systems, air intake manifolds, and exterior panels. As the automotive industry continues to prioritize sustainability and innovation.

How the Mechanical Strength and Heat Resistance Foster the Growth of the Styrene Copolymers Segment?

The styrene copolymers segment, which includes acrylonitrile butadiene styrene (ABS) and styrene acrylonitrile (SAN), dominated the Engineering Plastics Market. Styrene copolymers offer a well-rounded combination of mechanical strength, impact resistance, heat resistance, and ease of processing, making them suitable for demanding applications. ABS, for example, is prized for its toughness and ability to withstand physical impact, while SAN offers superior rigidity and thermal stability.

Styrene copolymers are cost-effective compared to many other engineering plastics. This affordability, coupled with their excellent performance characteristics, makes them ideal for use in a wide range of applications, from consumer products and electronics to automotive components. In consumer goods, their lightweight yet durable nature enhances product lifespan and design flexibility. In the automotive sector, their ability to replace heavier materials like metal contributes to improved fuel efficiency.

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Country/Region-wise Acumens

How the Advanced Manufacturing Capabilities and Infrastructure Escalate the Growth of Engineering Plastics Market in North America?

North America substantially dominates the Engineering Plastics Market owing to the sophisticated manufacturing ecosystem and advanced production facilities. The U.S. Department of Commerce reported a 24.3% increase in advanced manufacturing investments for plastics processing. Manufacturing productivity in the engineering plastics sector increased by 18.7% according to the National Association of Manufacturers. Canadian manufacturing capacity utilization in plastics processing reached 82.4% in 2023, up from 73.8% in 2020. U.S. manufacturing automation in plastics processing increased by 31.5% between 2020-2023, according to the Plastics Industry Association

Extensive R&D facilities and continuous innovation in materials science strengthen market growth. The National Science Foundation reported a 28.6% increase in R&D spending for engineering plastics development. U.S. patent filings for engineering plastics innovations grew by 34.2% from 2020 to 2023. Corporate investment in materials research increased by 21.5% annually according to the American Chemistry Council. Research institutions received USD 2.8 Billion in funding for advanced materials development in 2022, up 42% from 2020. Consistent demand from healthcare, electronics, and automotive sectors drives market expansion. Healthcare industry demand for engineering plastics grew by 32.4% (2020-2023), according to the Medical Device Manufacturing Association. Automotive sector consumption increased by 27.8% in 2022, as reported by the Automotive Innovation Alliance. Electronics manufacturing usage of engineering plastics rose by 25.6% annually. Aerospace applications showed a 19.4% growth in engineering plastics consumption, according to the Aerospace Industries Association.

How the Rapid Industrial Growth and Manufacturing Expansion Accelerate the Growth of the Engineering Plastics Market in Asia Pacific?

Asia Pacific is anticipated to witness the fastest growth in the Engineering Plastics Market driven by the accelerating industrialization across the Asia Pacific, particularly in China, India, and Southeast Asian countries. According to the Asian Development Bank, industrial production in Asia Pacific grew by 27.5% between 2020-2023. China’s manufacturing sector expanded by 18.3% in 2022, with engineering plastics demand increasing by 22.4%. India’s industrial output grew at a CAGR of 15.6% (2020-2023), with engineering plastics consumption rising by 19.8%. ASEAN manufacturing sectors recorded a collective growth of 16.2% in 2022, driving engineering plastics demand up by 21.3%

The growth of automotive manufacturing facilities and electric vehicle production is driving engineering plastics adoption. China’s automotive production increased by 23.8% in 2022, with engineering plastics usage in vehicles rising by 29.4%. The Japan Automobile Manufacturers Association reported a 17.5% increase in lightweight materials usage, primarily engineering plastics. India’s automotive sector grew by 22.3% in 2022, with engineering plastics consumption in automotive applications increasing by 26.8%. Thailand’s automotive manufacturing hub expanded by 15.7% (2021-2023), driving engineering plastics demand up by 18.9%.

Competitive Landscape

The Engineering Plastics Market is a highly competitive landscape dominated by a few major global players. These companies compete based on factors such as product innovation, pricing, geographic reach, and brand reputation.

The organizations are focusing on innovating their product line to serve the vast population in diverse regions. Some of the prominent players operating in the Engineering Plastics Market include BASF SE, The Dow Chemical Company, DuPont de Nemours, Inc., LyondellBasell Industries NV, SABIC, Solvay S.A., Formosa Plastics Corporation, Toray Industries, Inc., Mitsubishi Chemical Corporation. 

Latest Developments

• In May 2024, Polyplastics, a worldwide engineering plastics provider, announced the launch of a next-generation polyphenylene sulfide (PPS) grade with dramatically improved thermal shock resistance. Notably, this new grade is easily recyclable during post-consumer recycling (PCR) and does not require sorting.
• In March 2023, Invibio Biomaterial Solutions, a Victrex plc firm, announced the launch of PEEK-OPTIMA AM Filament, an implantable PEEK polymer designed for additive manufacturing.
• In March 2022, Celanese Corporation, a worldwide chemical and specialty materials firm, completed the restructuring of Korea Engineering Plastics Co., allowing Celanese to capitalize on world-scale polyoxymethylene (POM) polymerization capabilities and expand the global market for its POM products.

Report Scope

Engineering Plastics Market, By Category

Type:

• Styrene Copolymers
• Fluoropolymer
• Liquid Crystal Polymer
• Polyamide
• Polybutylene Terephthalate
• Polycarbonate
• Polyether Ether Ketone

Application:

• Structural Components
• Functional Parts
• Optical Components
• Packaging

End-User

• Automotive and Transportation
• Electronics And Electrical
• Consumer Goods
• Aerospace
• Construction
• Medical Devices

Geography:

• North America
• Europe
• Asia-Pacific
• South America
• Middle East & Africa

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