Magazine

We strengthen your team’s technical understanding and build a solid foundation for reliable, low-defect casting processes.

A NEW GENERATION OF GAP FILLERS FOR HEAT DISSIPATION FROM BATTERIES IN E-CARS | Heat dissipation from batteries is essential to protect them from overheating. This increasingly affects the batteries used in e-cars and other electric vehicles. Only if the batteries are protected from overheating, strong drive performance and long vehicle life can be ensured. This is enabled with gap fillers.

PRINTED CONDUCTIVE STRUCTURES MADE OF SPECIAL ALLOY | Fraunhofer IFAM has the expertise and equipment to produce printable metal and alloy inks for special applications. These inks made from special alloys for digital printing techniques offer opportunities for cost-efficient new products in the field of printed electronics and sensor technology in a wide range of industries.

STRESSES IN THE BOND LINE AFTER ADHESIVE CURING - CAUSE AND EFFECT | The most common causes of stresses in bond lines during adhesive curing are the volume reduction of the adhesive due to curing and different thermal expansions of the adhesive and the joined parts or of two different joined parts. When designing adhesive bonds, the question of volume reduction, also known as curing shrinkage, is crucial. It is important to determine the material value and understand how much volume reduction actually causes stress.

THERMALLY CONDUCTIVE HEAT SINK MATERIAL FOR 3D PRINTING AND FUNCTION INTEGRATION OF ELECTRONICS | The integration of electronics or LEDs in additively manufactured plastic components involves heat dissipation during operation. Using 3D printing (Fused Filament Fabrication, FFF), thermally conductive plastic composites can be used as heat sinks. The material and process development for applications in the automotive and lighting sectors was part of the »Hyb-Man – Hybrid 3D Manufacturing of Smart Systems« project.

METHODS FOR APPLYING SEALANT TO BIPOLAR PLATES USING SCREEN PRINTING | Fraunhofer IFAM is your competent partner for innovative research services in the field of fuel cell production. In addition to industrial projects in this context, we are active in public research projects - including the National Action Plan for Fuel Cell Production (H2GO). The National Action Plan maps the key sensitivities of the value chain in the production, stacking and recycling of substantial fuel cell components. Fraunhofer IFAM is, among other things, researching the use of the screen printing process for applying sealants to bipolar plates, which has several other advantages in addition to reducing production costs.

RECYCLING OF FUEL CELLS: ADHESIVE STRATEGIES FOR ASSEMBLY AND DISASSEMBLY | Fuel cells are an elementary component for the use of climate-friendly hydrogen in the transport sector. Fraunhofer IFAM is part of the technology alliance Stack2P in the national project H2Go in the national action plan for fuel cell production funded by the ministry of transport. A central goal is the development of recycling-friendly manufacturing technologies for fuel cells based on the principle of “Design for Recycling” and the implementation in an assembly and disassembly platform for the subsequent transfer of the components into scalable reuse, repair and recycling concepts. The goals are to increase product quality and reduce the product development cycle and development costs as well as reduce production errors.

MECHANICAL JOINING TECHNOLOGIES AND ADHESIVE BONDING: THE BEST OF BOTH WORLDS IN HYBRID JOINTS | Hybrid joints combine different joining technologies and are increasingly used in various industries. The decisive strength of a hybrid joint is that advantages of the elementary joining technologies are used and disadvantages are compensated. Adhesive bonding can be advantageously combined with various mechanical joining processes, depending on the application and industry. Fraunhofer IFAM develops solutions for various industries, for example for transportation, white goods, or construction.

PROJECT “BioRUHM”: REACTIVE URETHANE-FREE HOTMELT ADHESIVE | Reactive hot-melt adhesives (RHM) based on isocyanate are increasingly being used due to their exceptional properties, from packaging to automotive construction and technical textiles. However, the composition of these urethane-based adhesives also involves risks, e.g. the release of hazardous isocyanate. In the “BioRUHM” project, Fraunhofer IFAM is working with project partners to develop a urethane-free concept.