Composites Use in Automotive

Composites are used frequently in motorsports and lower volume, high-end/luxury vehicles, which typically favor continuous carbon fiber materials. They are also often used to fabricate exterior structures in racing vehicles, where their relative light weight provides speed and performance advantages over metals. Within mid- and high-volume production vehicles, common composite applications include glass fiber-reinforced polymer (GFRP) leaf springs, suspension components, and drive shafts, sheet molding compound (SMC) body panels and frames; bulk molding compound (BMC) housings and support structures; and injection-molded thermoplastics for bumper frames, lift gates and seat structures.

PUR composite sandwich panels for 3D automotive parts, high-volume panels and more
Compression Molding

PUR composite sandwich panels for 3D automotive parts, high-volume panels and more

At its U.S. sites, Ascorium produces glass fiber/PUR 3D parts via semi-automated molding, high-volume flat panels via a continuous line while working toward bio-based PUR and recycling.

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Automotive

SPE ACCE 2025 issues call for papers, sponsors and exhibitors

Submit a paper or technical presentation, or become a sponsor and/or exhibitor for SPE ACCE 2025, celebrating its 25 years Sept. 3-5 in Novi, Michigan.

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Automotive

Braided thermoplastic composite H2 tanks with co-consolidated molded boss areas to fit EV battery space

BRYSON project demonstrates possible designs, automated manufacturing and low permeability concepts, including EVOH liner and novel PPA matrix.

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Automotive

On the radar: Innovations in composite battery enclosures

A look at recently reported design, material and process innovations for composites-intensive battery enclosures, developed to support the ramp-up of EV and AAM vehicles.

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Carbon Fibers

DITF oriented rCF tapes target virgin fiber CFRP substitution

Infinity project developed highly oriented rCF/PA6 tapes with 88% the tensile strength, modulus of a virgin CFRP product and 49-66% reduction in global warming potential.

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Mass Transit

New Flyer selects Hexagon Purus H2 tanks for fifth consecutive year

Type 4 tanks will continue to be supplied for the mass mobility provider’s Xcelsior Charge FC fuel cell electric transit buses.

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Glass Fibers

SPE automotive names winners for 53rd annual automotive innovation awards program

SPE’s annual Automotive Innovation Awards highlighted several composite part designs in vehicle safety, comfort and efficiency.

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Knowledge Centers

Composites in Infrastructure and Construction
Composites in Infrastructure and Construction

CompositesWorld’s CW Tech Days: Infrastructure event offers a series of expert presentations on composite materials, processes and applications that should and will be considered for use in the infrastructure and construction markets.

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Design, Simulation and Testing Technologies for Next-Gen Composite Structures
Design, Simulation and Testing Technologies for Next-Gen Composite Structures

Review the state of the art in design, simulation, failure analysis, digital twins, virtual testing and virtual inspection.

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Latest Automotive News And Updates

Automotive

SPE ACCE 2024 highlights innovation across industry, academia

SPE shares highlights, award recipients, exhibitors, speakers and more from its 2024 Automotive Composites Conference & Expo (ACCE). 

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Automotive

Aptera completes function test for first production-intent sEV

First initial testing of the production vehicle’s BinC composite body structure, drivetrain and battery pack demonstrates progress toward real-world validation.

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Hexagon Agility receives wave of RNG fuel system orders for Class 8 trucks

RNG/CNG fuel system installations with Type 4 CFRP pressure vessels, powered by Cummins’ 15-liter natural gas tank, adds 230,000 heavy-duty trucks to the addressable RNG/CNG market annually.

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Carbon Fibers

Bucci features 20-inch center lock version of carbon fiber wheel

Bucci Composites introduces new carbon fiber wheel option for high-performance automotive applications.

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Automotive

U.K. composite experts join SCALE-UP project supporting net-zero automotive tech

Advanced Propulsion Centre funding backs JLR, Helicoid, iCOMAT, Lineat Composites and others as they accelerate the growth of the U.K. automotive composite supply chain.

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AOC introduces UV-Resistant Automotive System for SMC parts

AOC’s novel formulation, tested in the lab and in real-world environments, delivers a deep black, molded-in color that resists fading and offers high scratch resistance.

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Sustainability

Bladder-assisted compression molding derivative produces complex, autoclave-quality automotive parts

HP Composites’ AirPower technology enables high-rate CFRP roof production with 50% energy savings for the Maserati MC20.

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Co-molding SMC with braided glass fiber demonstrates truck bed potential

Prepreg co-molding compound by IDI Composites International and A&P Technology enables new geometries and levels of strength and resiliency for automotive, mobility.

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Application

Composite materials, design enable challenging Corvette exterior components

General Motors and partners Premix-Hadlock and Albar cite creative engineering and a move toward pigmented sheet molding compound (SMC) to produce cosmetic components that met strict thermal requirements.

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Automotive

Composites reinvent transportation

Celebrating National Composites Week, CW shares ways in which composites continue to evolve mass transit.

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Automotive

Composites reinvent automotive

To celebrate National Composites Week, CW shares some of the latest innovations in automotive composites, from new process technologies to novel commercial applications.

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Carbon fiber, bionic design achieve peak performance in race-ready production vehicle

Porsche worked with Action Composites to design and manufacture an innovative carbon fiber safety cage option to lightweight one of its series race vehicles, built in a one-shot compression molding process.

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recycle carbon fiber

FAQ: Automotive

How are composites used in automotive structures?

Within mid- and high-volume production vehicles, common composite applications include glass fiber-reinforced polymer (GFRP) leaf springs, suspension components, and drive shafts, sheet molding compound (SMC) body panels and frames; bulk molding compound (BMC) housings and support structures; and injection-molded thermoplastics for bumper frames, lift gates and seat structures.

As electric vehicles (EV) become more prevalent on the road and in development by automotive manufacturers, new opportunities exist for composites and composite materials development. For example, a lighter-weight, composites-intensive vehicle is likely capable of driving for a longer range between charges. Battery enclosures present one large market opportunity in the EV market.

Source: Composites end markets: Automotive

Why use composites for electric vehicle (EV) battery enclosures?

As the automotive industry rapidly electrifies its fleets, interest is growing among OEMs and battery module producers in using composite materials for battery enclosures — covers and trays that hold and protect the frames and battery cells themselves.

There are many reasons for this, including the ability to reduce mass and stack tolerances, the fact that battery enclosures are multicomponent assemblies and poor impact performance of metals. In each of these areas, composite battery enclosures offer quantifiable benefits versus metals: lower mass, higher design freedom with greater space efficiency, faster assembly, no corrosion, greater durability and — with specific formulations — better flame resistance/fire containment.

Source: Price, performance, protection: EV battery enclosures, Part 1

ColorForm multi-component injection