Technologies

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  • oxide layer vs. no oxide layer
    © Fraunhofer IFAM

    FUNCTIONALIZABLE METAL SURFACES THROUGH PLASMA ELECTROLYTIC OXIDATION (PEO) | Plasma electrolytic oxidation (PEO), also known as micro arc oxidation (MAO), is a wet chemical process that enables the production of highly functionalizable oxide layers on metals whose oxides do not have electrical conductivity, such as aluminum, magnesium, or titanium. These coatings are hard, wear-resistant, heat-resistant, and porous, making them ideal for use in aerospace, medical technology, and other high-performance industries.

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  • TARGETED PRODUCT IMPROVEMENTS BASED ON IN-DEPTH KNOWLEDGE OF FRICTION AND WEAR | Whether motors and pumps as a whole or their seals - almost every application product is affected by friction and wear. The consequences are high energy losses and a shortened service life of the products. To counteract this, Fraunhofer IFAM is working intensively on tribology, i.e. the question of how friction and wear can be reduced or how lubrication between components can be improved. This is because these factors are directly influenced by various things such as material selection, surface coating, or contact geometry. With its broad spectrum of competencies in the fields of materials research, coating technology and analytics, the institute offers ideal conditions for developing holistic tribological solutions.

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  • © Fraunhofer IFAM

    Highly electrically conducting composite for filament printing.

    INTEGRATION OF HIGHLY ELECTRICALLY AND THERMALLY CONDUCTIVE FILLERS IN A PLASTIC MATERIAL | Fraunhofer IFAM is specialized in the compounding of highly filled special polymer composites and the further processing into printable composite filaments. For the processing or production of filaments from polymer composites, the institute has comprehensive know-how and the latest technologies and process techniques. The composition of the material (fillers, filler content) and the selection of the base polymer are customized according to the customer's specific requirements.

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  • Versatile and individual thanks to special compound technology.

    DO YOU NEED CERTAIN PROPERTIES OF A METAL IN A PLASTIC? | Then Fraunhofer IFAM offers the solution with its developed polymer composites! The special compound technology of Fraunhofer IFAM makes it possible to produce special composites based on a wide range of thermoplastics and elastomers which are, for example, highly electrically and/or thermally conductive.

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  • illustration explaining the electromagnetic spectrum, depicting the range of electromagnetic waves from radio waves to gamma rays
    © Adobe Stock/AhmadTriwahyuutomo/AI generated

    KEY TECHNOLOGY FOR EMC PROTECTION AND CAMOUFLAGE TECHNOLOGY | Radiation-absorbing materials (RAM) are becoming increasingly important in numerous industries. Whether in military technology, measurement technology, or automotive engineering - wherever sensitive electronics and high-precision sensors are used, effective protection against electromagnetic interference (EMI) is essential. Modern composite materials offer tailor-made solutions that can both shield electromagnetic waves and minimize radar and sensor signatures.

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  • © Fraunhofer IFAM

    THIN SEPARATORS MADE OF SULFIDE OR POLYMER USING A SLOT DIE | Solid-state batteries with high energy density require thin separators made of sulfides or polymer electrolytes with layer thicknesses of less than 30 micrometers. With slot die coating, we can apply slurry tailored precisely to requirements and produce separator layers. The production and characterization of these layers requires expertise in materials, processes, and analytical methods, which are bundled at Fraunhofer IFAM.

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  • Vergießen eines elektronischen Bauteils.
    © Fraunhofer IFAM

    Potting of an electronic component.

    With the steady increase in electronic assemblies and their use, for example in motor vehicles and sensors, the demands on their long-term stability and functional reliability are also rising. Polymer potting is an ideal way to protect these components.

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  • Metal injection molding (MIM) is the key process when it comes to the economical series production of high-precision, complex metal components. MIM combines the design freedom of plastic injection molding with the mechanical properties of metallic materials. Fraunhofer IFAM has been one of the leading research institutions in this field for over 30 years and supports industry partners in implementing innovative material and component solutions in new products.

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  • © Fraunhofer IFAM

    HIGH-PERFORMANCE COMPOSITES FOR RELIABLE ELECTROMAGNETIC COMPATIBILITY | Electronic systems are everywhere – from complex machine controls and sensor technology in Industry 4.0 to electric drives in vehicle construction. This also increases the risk of electromagnetic interference that can affect other devices or cause sensitive systems to malfunction. Compliance with electromagnetic compatibility (EMC) is therefore essential for the trouble-free functioning of devices and the reliability of sensitive electronic equipment. At Fraunhofer IFAM, we develop innovative functional composites for EMC protection.

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  • Prototype kinematics of a serial industrial robot with hybrid drives at Fraunhofer IFAM in Stade.
    © Fraunhofer IFAM

    Prototype kinematics of a serial industrial robot with hybrid drives at Fraunhofer IFAM in Stade.

    Fraunhofer IFAM has now developed a novel solution for the dynamic improvement of the kinematics: the hybrid drive for industrial robots.

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