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North America Automotive Plastics Market Size, Share & Trends Analysis Report By Product (PP, PU), By Application (Interior Furnishings, Power Trains), By Process, By Country,- Industry Analysis, Size, Share, Growth, Trends, and Forecast 2024-2033

Publisher Nova One Advisor
Published May 26, 2025
Length 422 Pages
SKU # ONEA20058023

Description

North America Automotive Plastics Market Size and Growth
The North America automotive plastics market size was exhibited at USD 5.75 billion in 2023 and is projected to hit around USD 9.19 billion by 2033, growing at a CAGR of 4.8% during the forecast period 2024 to 2033.

North America Automotive Plastics Market Key Takeaways:

The interior furnishings segment led the industry and accounted for the largest market share of 51.5% in 2023.
The Exterior furnishing segment held a substantial market share in 2023.
The Polypropylene (PP) segment led the market and accounted for the maximum revenue share of 33.03% in 2023.
The Polyurethane (PU) segment accounted for a significant portion of the market in 2023.
The Polyvinyl chloride (PVC) segment experienced considerable growth in 2023.
The Injection Molding segment led the market and accounted for the largest market share of 57.0% in 2023.

Market Overview
The North America Automotive Plastics Market has emerged as a foundational pillar in the transformation of the regional automotive industry. With increasing pressure on automakers to reduce vehicle weight, enhance fuel efficiency, meet regulatory standards, and support electrification trends, plastics have become indispensable across both structural and functional automotive components. Unlike metals, which have traditionally dominated automotive production, plastics offer the advantage of lightweighting, design flexibility, corrosion resistance, and cost efficiency, while enabling complex part geometries through advanced molding techniques.
In the United States, Canada, and Mexico the three key players in the North American automotive ecosystem vehicle design and manufacturing are being reshaped by the integration ofpolypropylene (PP), acrylonitrile butadiene styrene (ABS), polyamide (PA), polycarbonate (PC), polyurethane (PU), and a suite of other engineering plastics. These materials are no longer confined to interior trims but are now being extensively used in powertrains, under-hood applications, chassis elements, and electrical systems.
Additionally, with the rise of electric vehicles (EVs) and connected cars, the need for lightweight yet thermally stable and electrically insulating materials has grown significantly. Automotive plastics also support innovations in aesthetic customization (e.g., in-mold decoration), sensor integration, and modular component designessential for next-generation vehicles.
Major Trends in the Market

Rising Vehicle Lightweighting Mandates: Government regulations pushing for improved fuel efficiency and reduced emissions are accelerating the substitution of metals with plastics.

Electrification and e-Mobility: EVs demand lighter components and thermally resistant plastic enclosures for battery packs, electronic control units, and wiring systems.

Increased Use of Glass Fiber Reinforced PP: PP LGF 20/30/40 composites are replacing metal components in chassis and under-the-hood applications.

Shift Toward Recyclable and Bio-based Plastics: Sustainability goals are encouraging OEMs to explore recycled PC, PA, and bio-based PE and PP variants.

Aesthetic and Functional Interior Innovation: Automakers are investing in advanced molding techniques like IMD (In-Mold Decoration) and soft-touch materials for interior customization.

Plastic Integration in Advanced Driver Assistance Systems (ADAS): Plastics enable sensor housing, lightweight radar covers, and compact electronic module enclosures.

Growth of Injection and Blow Molding Technologies: These processes dominate the production of complex geometries, multi-material parts, and hollow structural components.

Report Scope of North America Automotive Plastics Market

Report Coverage
Details

Market Size in 2024
USD 6.03 Billion

Market Size by 2033
USD 9.19 Billion

Growth Rate From 2024 to 2033
CAGR of 4.8%

Base Year
2023

Forecast Period
2024-2033

Segments Covered
Product, Process, Application, Region

Market Analysis (Terms Used)
Value (US$ Million/Billion) or (Volume/Units)

Country scope
U.S.; Canada; Mexico

Key Companies Profiled
Dow, Inc.; Hanwha Azdel Inc.; Lear Corporation; Owens Corning; Magna International, Inc.; Momentive Performance Materials, Inc.; DuPont de Nemours, Inc.; Industrias Cazel; Axiom Group Inc.; Amra Plastic Moulders Inc.

Key Market Driver: Lightweighting to Improve Fuel Efficiency and Reduce Emissions
The foremost driver of the automotive plastics market in North America is the urgent industry requirement for lightweighting. Automakers are under constant regulatory and market pressure to increase fuel efficiency and reduce carbon emissions. Replacing metal components with advanced plastics significantly reduces vehicle mass, leading to better mileage and lower tailpipe emissions.
For every 10% reduction in vehicle weight, fuel efficiency improves by approximately 6–8%, according to the U.S. Department of Energy. Plastics like PP, PA, and PC blends offer the strength-to-weight ratio necessary for structural parts, while PU foams are used in seats and dashboards for cushioning and thermal insulation. The growth in multi-material vehicle designs, which strategically combine plastics with aluminum and composites, is also reinforcing demand for automotive-grade polymers.
This demand is particularly strong in light-duty trucks, SUVs, and electric vehicles, which require careful mass management to optimize battery performance and range. As OEMs continue to explore modular platforms and design optimization tools, the strategic role of plastics becomes even more pronounced.
Key Market Restraint: Thermal and Mechanical Limitations in High-Stress Environments
Despite their advantages, plastics face a significant restraint when it comes to thermal, chemical, and mechanical stability under extreme conditions. Unlike metals, many polymers can degrade or deform at high temperatures, limiting their application in engine components, exhaust systems, or high-load structural elements.
For example, while PP and ABS are widely used for interior and exterior trims, they may not withstand prolonged exposure to temperatures above 100°C, which are common in under-the-hood environments. Although engineering plastics such as PA66, PEEK, and PPS offer higher performance, they come at a significantly higher cost, posing challenges for mass-market vehicle applications.
In EVs, battery components generate substantial heat and require fire-retardant, high-durability housings criteria not always met by conventional plastics. These technical constraints necessitatematerial substitution, multi-layer assemblies, or hybrid solutions, which can increase complexity and offset the benefits of lightweighting.
Key Market Opportunity: Growth of Electric Vehicles and Advanced Driver-Assistance Systems
A prominent opportunity lies in the expansion of electric vehicles (EVs) and ADAS (Advanced Driver Assistance Systems). EVs, which require compact, lightweight, thermally stable, and electrically insulating materials, are ideal candidates for advanced plastics.
For instance, plastic housings for battery management systems (BMS), cooling modules, and motor enclosures are becoming critical components in EV architecture. Similarly, radar domes, LIDAR sensor casings, and camera brackets for ADAS are increasingly fabricated from engineering plastics like PC/ABS blends and glass-filled nylons, which provide the necessary dimensional stability and EMI shielding.
North American automakers are investing heavily in smart mobility and EV platforms, creating a substantial growth path for suppliers of custom plastic compounds, 3D printed polymer parts, and injection-molded electronic enclosures. In the context of autonomous driving, the potential for plastics in interior modularity, occupant monitoring, and dashboard interfaces is immense.
North America Automotive Plastics Market By Application Insights
Interior furnishing held the dominant position, encompassing dashboard panels, seat trims, instrument clusters, door trims, and center consoles. The demand is driven by consumer expectations for aesthetically pleasing, durable, and lightweight interiors. IMD (In-Mold Decoration) technology is increasingly used to integrate decorative films, logos, and textures into plastic panels, offering premium finishes and customization without increasing part count or weight.
Under-the-hood applications are the fastest-growing segment, owing to the increased complexity and thermal management needs in modern engines and EVs. Plastics are now being used for cylinder head covers, intake manifolds, oil pans, and cooling reservoirs, often made from PA66 or high-performance blends. The trend toward downsized turbocharged engines and electrified drivetrains is further pushing OEMs to rely on materials that offer heat resistance, chemical compatibility, and dimensional stability—capabilities well delivered by engineering plastics.
North America Automotive Plastics Market By Product Insights
Polypropylene (PP), particularly PP LGF 30, dominated the market, due to its superior mechanical strength, low density, moldability, and cost-effectiveness. Long glass fiber reinforced PP offers excellent impact resistance and dimensional stability, making it ideal for instrument panels, front-end modules, door panels, and battery covers. In North America, OEMs and tier-1 suppliers are increasingly replacing metal brackets and structures with PP LGF 30 to achieve meaningful weight reductions without compromising performance.
Meanwhile, Polyamide (PA) is the fastest-growing product, especially Nylon 6 and 66, due to their high-temperature resistance, chemical inertness, and mechanical strength. They are widely used in engine covers, intake manifolds, cooling system components, and electrical connectors. With EVs requiring thermal stability and lightweight properties for battery housings and motor encapsulation, PA’s role is becoming increasingly critical. Additionally, advances in bio-based and recycled PA are further enhancing its adoption in eco-conscious applications.
North America Automotive Plastics Market By Process Insights
Injection molding dominated the process segment, accounting for the highest volume share across all plastic automotive applications. This process allows for the mass production of high-precision, repeatable components with complex geometries, often using multi-cavity molds. Interior components such as instrument panels, air vents, handles, cup holders, and console trims are mostly produced via injection molding using ABS, PP, or PC blends.

Thermoforming is the fastest-growing process, primarily due to its increasing use in producing large, lightweight body panels and underbody shields for electric vehicles and commercial trucks. Thermoforming is particularly well-suited for low- to medium-volume runs, enabling faster design iteration and material savings. This is becoming a popular approach among niche vehicle makers and aftermarket suppliers, especially for EV startups and specialty vehicle segments in the U.S. and Canada.
Country Insights
United States
The United States is the largest and most advanced automotive plastics market in North America, driven by a high concentration of OEM headquarters, design centers, material suppliers, and manufacturing facilities. States like Michigan, Ohio, Tennessee, and South Carolina are major automotive hubs, housing facilities for Ford, GM, Tesla, Toyota, BMW, and numerous Tier 1 and Tier 2 suppliers.
The U.S. is leading in the development of sustainable plastics, with investments from companies like Dow, DuPont, and BASF Corporation focused on creating recyclable, lightweight polymer grades for next-gen vehicles. Federal EV incentives and emissions regulations are also fueling demand for plastics in EV manufacturing.
Canada
Canada plays a supporting role, especially in engineering services, precision component manufacturing, and materials R&D. Canadian firms are collaborating with global players on bio-based and recyclable plastic alternatives, aligned with the country's zero-emission targets. Ontario remains a central hub for automotive plastic applications due to its proximity to U.S. OEMs and supplier networks.
Mexico
Mexico is emerging as a production and export hub, thanks to its cost advantages, skilled labor, and integration into the USMCA trade framework. Automotive plastics are used extensively in interior modules, underbody components, and electrical connectors for vehicles assembled in cities like Monterrey and Puebla. OEMs are increasingly investing in injection molding capabilities and localized plastic compounding in the region.
Some of the prominent players in the North America automotive plastics market include:

Dow, Inc.
Hanwha Azdel Inc.
Lear Corporation
Owens Corning
Magna International, Inc.
Momentive Performance Materials, Inc.
DuPont de Nemours, Inc.
Industrias Cazel
Axiom Group Inc.
Amra Plastic Moulders Inc.

Segments Covered in the Report
This report forecasts revenue growth at country levels and provides an analysis of the latest industry trends in each of the sub-segments from 2021 to 2033. For this study, Nova one advisor, Inc. has segmented the North America automotive plastics market
Product

ABS
PP

PP LGF 20
PP LGF 30
PP LGF 40

Others
PU
PVC
PE
PC
PMMA
PA (Nylon 6 & 66)
Others

Process

Injection Molding
Blow Molding
Thermoforming
Other

Application

Power Trains
Electrical Components
Interior Furnishing

IMD or IML
Others

Exterior Furnishing
Under the Hood
Chassis

Country

North America

U.S.
Canada
Mexico

Table of Contents

422 Pages
Chapter 1. Methodology and Scope
1.1. Market Segmentation & Scope
1.2. Market Definition
1.3. Information Procurement
1.3.1. Purchased Database
1.3.2. Internal Database
1.3.3. Secondary Sources & Third-Party Perspectives
1.3.4. Primary Research
1.4. Information Analysis
1.4.1. Data Analysis Models
1.5. Market Formulation & Data Visualization
1.6. Data Validation & Publishing
Chapter 2. Executive Summary
2.1. Market Insights
2.2. Segment Outlook
2.3. Competitive Landscape Snapshot
Chapter 3. North America Automotive Plastics Market Variables, Trends & Scope
3.1. Market Lineage Outlook
3.1.1. Global Automotive Plastics Market
3.2. Penetration & Growth Prospect Mapping
3.3. Industry Value Chain Analysis
3.3.1. Raw Material Trends
3.4. Regulatory Framework
3.5. Market Dynamics
3.5.1. Market Driver Analysis
3.5.2. Market Restraint Analysis
3.5.3. Industry Challenges
3.5.4. Industry Opportunities
3.6. North America Automotive Plastics Market- Business Environment Analysis
3.6.1. Industry Analysis- Porter’s Five Force Analysis
3.6.1.1. Supplier Power
3.6.1.2. Buyer Power
3.6.1.3. Substitution Threat
3.6.1.4. Threat from New Entrant
3.6.1.5. Competitive Rivalry
3.6.2. Industry Analysis- Macroeconomic Factors Analysis
3.6.2.1. Political Landscape
3.6.2.2. Economic Landscape
3.6.2.3. Social Landscape
3.6.2.4. Technological Landscape
3.6.2.5. Environmental Landscape
3.6.2.6. Legal Landscape
Chapter 4. North America Automotive Plastics Market: Product Estimates & Trend Analysis
4.1. Product Movement Analysis & Market Share, 2024 & 2033
4.2. North America Automotive Plastics Market Estimates & Forecast, By Product, 2021 to 2033 (Kilo Tons) (USD Million)
4.3. ABS
4.3.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.4. PP
4.4.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.5. PU
4.5.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.6. PVC
4.6.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.7. PE
4.7.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.8. PC
4.8.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.9. PMMA
4.9.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.10. PA (Nylon 6 & 66)
4.10.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
4.11. Others
4.11.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
Chapter 5. North America Automotive Plastics Market: Process Estimates & Trend Analysis
5.1. Process Movement Analysis & Market Share, 2024 & 2033
5.2. North America Automotive Plastics Market Estimates & Forecast, By Process, 2021 to 2033 (Kilo Tons) (USD Million)
5.3. Injection Molding
5.3.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
5.4. Blow Molding
5.4.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
5.5. Thermoforming
5.5.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
5.6. Others
5.6.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
Chapter 6. North America Automotive Plastics Market: Application Estimates & Trend Analysis
6.1. Application Movement Analysis & Market Share, 2024 & 2033
6.2. North America Automotive Plastics Market Estimates & Forecast, By Application, 2021 to 2033 (Kilo Tons) (USD Million)
6.3. Power Trains
6.3.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
6.4. Electrical Components
6.4.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
6.5. Interior Furnishings
6.5.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
6.6. Exterior Furnishings
6.6.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
6.7. Under the Hood
6.7.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
6.8. Chassis
6.8.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
Chapter 7. North America Automotive Plastics Market: Country Estimates & Trend Analysis
7.1. Country Movement Analysis & Market Share, 2024 & 2033
7.2. North America
7.2.1. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.2. Market Estimates and Forecasts, by Product, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.3. Market Estimates and Forecasts, by Process, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.4. Market Estimates and Forecasts, by Application, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.5. U.S.
7.2.5.1. Key Country Dynamics
7.2.5.2. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.5.3. Market Estimates and Forecasts, by Product, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.5.4. Market Estimates and Forecasts, by Process, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.5.5. Market Estimates and Forecasts, by Application, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.6. Canada
7.2.6.1. Key Country Dynamics
7.2.6.2. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.6.3. Market Estimates and Forecasts, by Product, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.6.4. Market Estimates and Forecasts, by Process, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.6.5. Market Estimates and Forecasts, by Application, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.7. Mexico
7.2.7.1. Key Country Dynamics
7.2.7.2. Market Estimates and Forecasts, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.7.3. Market Estimates and Forecasts, by Product, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.7.4. Market Estimates and Forecasts, by Process, 2021 - 2033 (Kilo Tons) (USD Million)
7.2.7.5. Market Estimates and Forecasts, by Application, 2021 - 2033 (Kilo Tons) (USD Million)
Chapter 8. North America Automotive Plastics Market - Competitive Landscape
8.1. Recent Developments & Impact Analysis, By Key Market Participants
8.2. Company Categorization
8.3. Company Market Share/Position Analysis, 2023
8.4. Company Heat Map Analysis
8.5. Strategy Mapping
8.5.1. Expansion
8.5.2. Mergers & Acquisition
8.5.3. Partnerships & Collaborations
8.5.4. New Process Launches
8.5.5. Research And Development
8.6. Company Profiles (Business Overview, Financial Performance, Product Benchmarking)
8.6.1. Dow, Inc.
8.6.1.1. Company Overview
8.6.1.2. Financial Performance
8.6.1.3. Type Benchmarking
8.6.2. Hanwha Azdel Inc.
8.6.2.1. Company Overview
8.6.2.2. Financial Performance
8.6.2.3. Type Benchmarking
8.6.3. Lear Corporation
8.6.3.1. Company Overview
8.6.3.2. Financial Performance
8.6.3.3. Type Benchmarking
8.6.4. Owens Corning
8.6.4.1. Company Overview
8.6.4.2. Financial Performance
8.6.4.3. Type Benchmarking
8.6.5. Magna International, Inc.
8.6.5.1. Company Overview
8.6.5.2. Financial Performance
8.6.5.3. Type Benchmarking
8.6.6. Momentive Performance Materials, Inc.
8.6.6.1. Company Overview
8.6.6.2. Financial Performance
8.6.6.3. Type Benchmarking
8.6.7. DuPont de Nemours, Inc.
8.6.7.1. Company Overview
8.6.7.2. Financial Performance
8.6.7.3. Type Benchmarking
8.6.8. Industrias Cazel
8.6.8.1. Company Overview
8.6.8.2. Financial Performance
8.6.8.3. Type Benchmarking
8.6.9. Axiom Group Inc.
8.6.9.1. Company Overview
8.6.9.2. Financial Performance
8.6.9.3. Type Benchmarking
8.6.10. Amra Plastic Moulders Inc.
8.6.10.1. Company Overview
8.6.10.2. Financial Performance
8.6.10.3. Type Benchmarking
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