Thermoplastic fiber composites meet steel sheets

01/05/2021

Composites based on carbon fibers are being increasingly used in combination with conventional materials such as aluminum or steel. This makes it particularly easy to achieve different goals such as low weight, high specific stiffness and strength, and low costs. In the MAI CC4.0 research project "HybCar - Technologies for the efficient production of hybrid CFRP/metal structural components in the automotive sector", SGL Carbon is working with partners on new hybrid solutions for the automotive industry, which could be suitable for use in the underbody of electric vehicles, among other applications.

Efficient production of hybrid CFRP/metal structural components in the automotive sector

The success factor for innovative and at the same time economical lightweight construction of car body components is a holistic and particularly targeted use of fiber-reinforced plastics. However, the interaction with conventional materials such as aluminum and steel is also crucial. This can be achieved, among other things, by hybrid mixed construction methods. To expand competencies in the field of CFRP/metal hybrid lightweight construction, the MAI CC4.0 "HybCar" project has been launched with the aim of developing competencies in the field of hybrid lightweight construction along the entire value chain.

Carbon fiber-reinforced thermoplastics - innovative composites for lightweight construction

As part of the HybCar project, carbon fiber-based unidirectional (UD) tapes with a polyamide 6 matrix are deposited onto metallic substrates in a load-path-compliant manner using a fiber placement process. The mix of carbon fiber-reinforced thermoplastics and metal sheets enables the production of lightweight components while considering a particularly resource-efficient use of materials. An X-shaped technology demonstrator was developed as part of an underbody for electric vehicles, encompassing all the technological challenges of this specific hybrid application.

In addition to using UD tapes, pultruded thermoplastic flat profiles can also be used for local reinforcement. This can increase filing efficiency and thus improve the economics of the application.

Innovative hybrid construction with thermoplastic fiber composite materials

With our thermoplastic material toolbox, we offer a complementary portfolio of composite solutions that improve the performance of the final product, contributing to a smarter world.

Thermoplastic fiber composite materials

Results of the HybCar development project

The very local reinforcement with fiber composites makes it possible to reduce the thickness of the steel sheet from 2.5 mm to 0.7 mm and structurally reduce the overall height throughout the vehicle floor. This gain in space can be used to further advantages in terms of aerodynamics, fuel consumption or comfort/interior space. In addition, the flexibility in the thickness of the fiber composite insert means that the floor assembly can be designed or scaled to suit requirements.

As a result, the underbodies can be used for both small batteries and vehicle models with large batteries thanks to the precise insertion of load-specific reinforcement structures. In the process, smart mold inserts can be used to produce the corresponding floor assemblies across all models using the same forming mold and the same production setup. This not only saves time, but also tooling and changeover costs.

Thanks to the flat design of the carrier structure, more than 18 millimeters of height have been gained in the front foot area. Furthermore, the weight was reduced by more than 10 kilograms, representing a weight saving of around 40 percent. Thanks to a fully automated manufacturing process, the cycle time for production was brought to under 90 seconds.

The results at a glance

Added height in the front foot area
more than
18
18
millimeters
Weight reduction
more than
10
10
kilograms
Percentage weight savings
41
41
percent
Cycle time for production
under
90
90
seconds

"CFRP/metal-based hybrid structures offer a good opportunity to combine the advantages of both material classes. In the HybCar project, we are developing a scalable component concept with an efficient use of materials in combination with a fully automated manufacturing process.", explains Michael Kropka, Product Developer Thermoplastics at SGL Carbon.

The HybCar project, which is funded by the Bavarian State Ministry of Economic Affairs, Regional Development and Energy, is being driven by a consortium comprising EDAG Engineering GmbH (EDAG), the company Automation W+R, the Institute for Materials Resource Management at the University of Augsburg (MRM), the Fraunhofer Institute for Casting, Composite and Processing Technology IGCV and SGL Carbon. The demonstrator component is manufactured at SGL Carbon’s production site in Meitingen near Augsburg. The production of the prototype is preceded by digital product development, which is also being developed as part of the project.

Manufacturing process of the demonstrator component in video

The pre-consolidated UD tape structure is heated together with the steel component in an infrared oven above the melting temperature of the polymer. In the next step, in addition to the 3D forming, an adequate bonding agent is used to produce a strong material bond between the two components.

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Profile picture of Michael Kropka, Product Developer Thermoplastics
Michael Kropka
Product Developer Thermoplastics

phone: +49 8271 83-1255
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