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  • © Fraunhofer ILT, Aachen, Germany.

    On September 10 and 11, 2024, the 5th Laser Colloquium Hydrogen 2024 - LKH2 brought together around 60 renowned experts from industry, science and research. The now well-established conference is the ideal platform for discussing the latest developments and applications of laser technology for fuel cell and hydrogen production. At the Fraunhofer Institute for Laser Technology ILT in Aachen, the two-day event focused on the continuous production of metallic bipolar plates, process monitoring and the functionalization of surfaces.

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  • © Fraunhofer ILT, Aachen, Germany.

    The Fraunhofer Institute for Laser Technology ILT will show experts from the hydrogen industry how advanced laser technologies are helping to pave the way for the breakthrough of hydrogen technology at the international trade fair and conference Hy-fcell, which will take place in Stuttgart on October 8 and 9, 2024. At stand 4E51 in hall 4, the Aachen-based institute will be demonstrating which innovations can meet the growing demand for hydrogen technology and how laser technology increases efficiency, reduces costs and improves the sustainability of fuel cell production.

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  • Im Rahmen des DIPOOL-Projekts, optimieren Dr. Frank Schneider und sein Team mit KI und Minimalinvasiver Lasermodulation (MILM) die Prozessüberwachung und -steuerung in der Blechbearbeitung.
    © Fraunhofer ILT, Aachen, Germany / Ralf Baumgarten.

    The Fraunhofer Institute for Laser Technology ILT and Automatic-Systeme Dreher GmbH are presenting a groundbreaking innovation in the field of sheet metal processing at Euroblech 2024 from October 22 to 25 in Hanover, Germany: a demonstrator system for laser blanking that significantly increases process reliability and efficiency in production through the use of artificial intelligence.

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  • Kilowatt boost for USP material processing

    Press Release / August 29, 2024

    Steffen Rübling, TRUMPF (left), and Dr. Dennis Haasler, Fraunhofer ILT, discuss details of operating the 1 kW USP laser from TRUMPF.
    © Fraunhofer ILT, Aachen, Germany / Ralf Baumgarten.

    A new ultrashort pulse (USP) laser beam source from TRUMPF, designed for industrial use, will significantly expand the range of applications of USP laser processes. The Fraunhofer Institute for Laser Technology ILT in Aachen will be systematically exploring the potential of this beam source with an average output of 1 kW in the coming months. Among other things, experiments are planned to optimize processes in battery and fuel cell production, toolmaking and semiconductor technology, as well as to test various beam guidance strategies. Many of these pilot applications have their origins in the Fraunhofer internal Cluster of Excellence Advanced Photon Sources (CAPS), to which 21 institutes of the Fraunhofer-Gesellschaft belong.

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  • Laser deburring increases component quality

    Press Release / August 20, 2024

    Laser deburring produces smooth, round edges that prevent cuts as well as damage to cables and surfaces.
    © Fraunhofer ILT, Aachen, Germany.

    Burrs on cut and punched edges of sheet metal increase the risk of injury and can often damage cables and scratch surfaces. For this reason alone, it makes sense to deburr such edges. If this is done by laser, not only can edges be selectively reinforced, but the fatigue strength of the components can be increased and the tendency to forming cracks reduced. The Fraunhofer Institute for Laser Technology ILT in Aachen will be presenting state-of-the-art laser deburring processes at the EuroBLECH trade fair in Hanover from October 22 to 25, 2024. Interested parties can also find out more about laser polishing of sheet metal at the stand in Hall 27 | D142.

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  • Lens made of quartz glass ground (left) and laser polished (right). The laser-polished lens is a component made of tool steel.
    © Fraunhofer ILT, Aachen, Germany.

    The Fraunhofer Institute for Laser Technology ILT is supplementing its established Aachen “6th Conference on Laser Polishing LaP” on October 15 to 16, 2024 for the first time with a new conference, one that addresses the growing global interest in photonic process chains for the optics industry. The “1st Conference on Laser-based Optics Manufacturing LOM” will focus on laser-based manufacturing of complex optics and aim to boost the transfer of knowledge from research to industry. Laser-based optics manufacturing promises competitive advantages because it is cost-efficient, digitally controllable and also free of grinding dust and polishing agents.

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  • International alliance for green hydrogen

    Press Release / July 25, 2024

    Dr. Alexander Olowinsky, head of the Joining and Cutting department at Fraunhofer ILT, explains the importance of laser technology for increasing efficiency in hydrogen production. He is the organizer and moderator of the fifth - LKH2 - Laser Colloquium Hydrogen, which develops sustainable solutions for facing the challenges in the hydrogen industry.
    © Fraunhofer ILT, Aachen, Germany.

    The fifth Laser Colloquium Hydrogen - LKH2, organized by the Fraunhofer Institute for Laser Technology ILT, will take place on September 10 and 11, 2024, Once more it will focus on promoting sustainable networking since no state, no company, no research institution can manage the transition to sustainable hydrogen production alone. That is why numerous experts from industry and research will again meet in Aachen to exchange ideas and develop solutions together. One of the highlights of this year's congress will be the presentation of the German-Australian HyGATE project.

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  • © Fraunhofer ILT, Aachen.

    How pharmaceuticals act, how efficient catalysts are and how effective and accurate printing inks function all depend on the size of the nanoparticles they contain. However, there are as of yet no methods for monitoring the particle size distribution during grinding processes. In the EU-funded PAT4Nano project, a consortium from industry and research has spent the last four years looking for practicable approaches for such inline measurements. The Fraunhofer Institute for Laser Technology ILT in Aachen has developed a promising laser-based method that could soon make such measurements possible.

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  • The new production process with EHLA3D technology makes it possible to efficiently produce, coat or repair complex geometries with high-strength materials.
    © Makino.

    Makino and the Fraunhofer Institute for Laser Technology ILT are using EHLA and EHLA3D to redefine the boundaries of Additive Manufacturing. By integrating EHLA3D into a five-axis CNC platform, they have developed a process that can efficiently produce, coat or repair complex geometries with high-strength materials. Result of the collaboration: shorter production times and extended component life in critical industries, while laying the foundations for future innovation in the circular economy.

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  • Einstein Telescope launches new era in astronomy

    Press Release / June 12, 2024

    The Einstein Telescope is being built around 250 meters underground. With interferometers in the three tunnels, each ten kilometers long, it will measure collisions of black holes in the early universe.
    © NIKHEF.

    It’s still just a plan, but a new telescope could soon be measuring gravitational waves. Gravitational waves are something like the sound waves of the universe. They are created, for example, when black holes or neutron stars collide. The future gravitational wave detector, the Einstein Telescope, will use the latest laser technology to better understand these waves and, thus, our universe. One possible location for the construction of this telescope is the border triangle of Germany, Belgium and the Netherlands.

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