Contact
QR code for the current URL

Story Box-ID: 1176200

Fraunhofer Institut LBF Bartningstr. 47 64289 Darmstadt, Germany http://www.fraunhofer.de
Contact Shilpa Khare +49 6151 7058739

Lightweight and sustainable: Fraunhofer LBF presents innovations for the technical supply industrys

(PresseBox) (Darmstadt, )
Lightweight design makes products competitive and sustainable. Safety and reliable function must be guaranteed in the process. Promising new approaches for sustainable and efficient manufacturing processes with natural fiber-reinforced materials and the lightweight design potential through vibroacoustic metamaterials are shown by the exhibits from the Fraunhofer Institute for Structural Durability and System Reliability LBF in Darmstadt at the "Highly advanced materials for a circular world", November, 14 to 16, 2023 in Jönköping/Sweden, ELMIA Subcontractor, Area: InnoDex, Hall D. The fair is a meeting point for decision makers, constructors and designers of the manufacturing industry in Northern Europe.

For mechanical engineering and mobility to become even more economical, the components used there must be manufactured more efficiently and made lighter. The drivers are not only stricter emissions regulations but also society's growing awareness of the environment and sustainability.

Current Fraunhofer research solutions for sustainable lightweight design include, for example, property-optimized, particularly lightweight structural solutions for function-integrated, intelligent lightweight design - always taking into account the reliability, sustainability and affordability of the technical product solution.

At the important trade fair for the technical supply industry in Scandinavia, the Fraunhofer LBF demonstrates the potential for series production with the "sustainable battery housing for e-bikes" and the "car door" exemplifies how industrial applications benefit from vibroacoustic metamaterials.

Lightweight and mobile with natural fiber reinforced plastics

In order to respond to individual customer requirements and to meet social and political responsibility, scientists from Fraunhofer LBF, in collaboration with Ansmann AG, have carried out the "BioBattery" research project to develop natural fiber-reinforced plastics for use in Li-ion battery housings. The natural fiber-reinforced plastics are characterized by their low density, good mechanical properties, low tendency to splinter, and comparatively low cost.

At the Fraunhofer LBF, a new process was used to impregnate different natural fiber fabrics with plastic melt, while simultaneously reducing the contact time, and modify them to meet requirements. Based on an adapted component design of the battery housing to meet the numerous standards, local natural fiber reinforcements were introduced into the housing using an innovative injection molding process.
Compared to the original housing, the resulting housing impresses with a weight reduction of 30 percent, while at the same time increasing rigidity by 15 percent, and at the same time addresses the central guiding principle of efficient and environmentally friendly use of resources while avoiding greenhouse gases.

More information about the project: BIOBATTERY - Biobased plastics for lightweight solutions

Vibroacoustic metamaterials: More comfort for mobility

Lightweight structures often experience vibration problems that significantly affect the quality of life and comfort in everyday life. Conventional approaches to vibration and noise reduction often reach their limits. At Fraunhofer LBF, applications are being developed using vibroacoustic metamaterials for optimized structural dynamic behavior. Vibroacoustic metamaterials (VAMM) represent a novel measure for vibration reduction and have advantages in influencing vibration behavior compared to conventional measures. They are used as vibration reduction measures in a wide range of industries, for example in mechanical and vehicle engineering or in aerospace. VAMMs reduce disturbing structure-borne or airborne noise and help stabilize equipment and increase comfort.

VAMM are structures with specially, mostly periodically, arranged structural dynamic and/or acoustic resonators. The high effectiveness of VAMM is based on the targeted design and arrangement of the unit cells in the composite and the resulting interaction of the unit cells with each other.

Website Promotion

Website Promotion

Fraunhofer Institut LBF

For more than 80 years, the Fraunhofer LBF in Darmstadt has stood for the safety and reliability of lightweight structures. With its expertise in the fields of fatigue strength, system reliability, vibration technology and polymer technology, the institute today offers solutions for three of the most important cross-cutting issues of the future: lightweight system design, functional integration and cyber-physical mechanical engineering systems. The focus is on solutions for societal challenges such as resource efficiency and emission reduction as well as Future Mobility, such as electromobility and autonomous, connected driving. Comprehensive competencies from data acquisition in real operational field use, data analysis and data interpretation to the derivation of concrete measures for the design and improvement of material, component and system properties form the basis for this. The clients come from the automotive and commercial vehicle industries, rail transport technology, shipbuilding, aviation, mechanical and plant engineering, energy technology, electrical engineering, medical technology and the chemical industry, among others. They benefit from the proven expertise of the more than 300 employees and state-of-the-art technology on more than 17,900 square meters of laboratory and testing space.

The publisher indicated in each case (see company info by clicking on image/title or company info in the right-hand column) is solely responsible for the stories above, the event or job offer shown and for the image and audio material displayed. As a rule, the publisher is also the author of the texts and the attached image, audio and information material. The use of information published here is generally free of charge for personal information and editorial processing. Please clarify any copyright issues with the stated publisher before further use. In case of publication, please send a specimen copy to service@pressebox.de.
Important note:

Systematic data storage as well as the use of even parts of this database are only permitted with the written consent of unn | UNITED NEWS NETWORK GmbH.

unn | UNITED NEWS NETWORK GmbH 2002–2024, All rights reserved

The publisher indicated in each case (see company info by clicking on image/title or company info in the right-hand column) is solely responsible for the stories above, the event or job offer shown and for the image and audio material displayed. As a rule, the publisher is also the author of the texts and the attached image, audio and information material. The use of information published here is generally free of charge for personal information and editorial processing. Please clarify any copyright issues with the stated publisher before further use. In case of publication, please send a specimen copy to service@pressebox.de.