Technologies

MANUFACTURING OF FRP COMPONENTS USING A FUNCTIONALIZED RELEASE FILM | Due to their low weight and strength, components made of fiber-reinforced plastics (FRP) are in particularly high demand in a wide range of industries, such as the aerospace or automotive industries. However, conventional demolding of FRP components by using release agents is very cost and labor intensive. In addition, the release agents can have harmful effects on the environment. At Fraunhofer IFAM, a plasma-coated release film has been developed which allows thermoset plastic components to be manufactured and safely demolded without the use of release agents. The component surface is free of contamination and can be painted or bonded directly.

PRECISION LASER CUTTING AND LAMINATION STACK PRODUCTION FOR ELECTRIC DRIVES | The core of an electric drive plays a decisive role in determining efficiency, power density, and overall performance. Precisely cut stator and rotor sheets reduce eddy current losses, enhance magnetic properties, and allow higher rotational speeds. Through high‑precision laser cutting of electrical steel and production‑oriented lamination stack design, we support both research and development projects as well as industrial applications.

The "Center for Surface and Coating Technology" at Fraunhofer IFAM demonstrates the future of surface treatment. The state-of-the-art technical center has digitally linked industrial robots – such as painting robots – for the automated cleaning, pre-treatment, and subsequent painting of component surfaces in small and large structures. The entire process chain is digitally mapped and supplemented by interaction options using virtual and augmented reality. R&D goals include the realization of digitally networked surface technology systems and processes as well as process and quality optimization through machine learning and the use of AR/VR methods.

The combination of serial kinematics with external linear axes results in versatile and adaptable machine concepts for manufacturing, even for the production of large components.

Elemental analysis at Fraunhofer IFAM Dresden provides precise quantitative determination of carbon, hydrogen, nitrogen, oxygen and sulfur in metallic, ceramic and inorganic materials. Using CHNS and ONH methods, we deliver reliable analytical data for quality control, materials development, and research and industrial applications.

WET CHEMICAL SURFACE TREATMENT FOR BETTER BONDS AND COATINGS | Wet chemical pre-treatment, often referred to as galvanization or galvanic technology, still occupies a key position in the field of surface pre-treatment in many industrial sectors, such as the aerospace industry, medical technology, or the automotive industry. Fraunhofer IFAM provides support in this field by developing and optimizing various processes and products for wet-chemical surface treatment for metals.

ENVIRONMENTALLY FRIENDLY AND RESOURCE-EFFICIENT SURFACE TREATMENT | Laser technology offers a wide range of possibilities for cleaning and modifying surfaces. For example, metal surfaces can be made more resistant to corrosion, the adhesion of a paint or adhesive can be improved, or storage-capable and liquid-transporting layers can be created.

REMOVAL À LA CARTE - SELECTIVELY OR DOWN TO THE SUBSTRATE | As an ablative process, the laser is ideally suited to remove coatings from surfaces and preparing them directly for recoating. This saves time and money, especially in the case of local repair, as the laser can be guided in a very defined way, resulting in an ablation with sharp edges without a mask. Depending on the material combinations and the laser parameters used, a coating can be selectively removed or stripped down to the base substrate while maintaining virtually the same surface quality.

CLEANING AND FUNCTIONALIZING SURFACES WITH LIGHT - FOR THE BENEFIT OF THE ENVIRONMENT | Clean, modified surfaces form the basis for long-term stable bonding and painting. Surface treatment by laser offers many advantages over other processes: Not only are the surfaces cleaned, but in a one-step process, the topography and chemistry are adjusted in parallel according to individual requirements. And the technology is environmentally friendly, resource-efficient and in a compact design that can be easily integrated into existing process chains.

The Fraunhofer IFAM in Stade develops automated, forward-looking joining and sealing processes for numerous branches, including aviation and space, automotive engineering, rail vehicle construction, shipbuilding and the energy sector, up to full-scale. The individual solutions are based on the application-specific requirements for joining or sealing of structures.