With EHLA, metal protection layers can be applied at an extremely high speed. Credit: Fraunhofer ILT To prevent components from becoming corroded or worn, they are often coated using hexavalent chromium. Starting in September of 2017, though, this will only be permitted with exceptions. The extreme high-speed laser material deposition (EHLA) developed by Fraunhofer and RWTH researchers offers an economic alternative for the first time ever. Whether in the automotive industry, machinery and plant engineering or aerospace, numerous metallic components have to be protected against corrosion and wear. A common method to accomplish this is hard chromium plating. However, this method has serious disadvantages: Not only does it consume a great deal of energy, but the chromium(VI) which is used is also highly damaging to the environment. As of September 2017, it may therefore only be used upon authorization/approval. This ban presents the industry with enormous challenges.
Economical alternative to chromium(VI)
Dr.-Ing. Andres Gasser and Dipl. Thomas Schopphoven from the Fraunhofer Institute for Laser Technology ILT in Aachen and their colleague Dipl.-Ing. Gerhard Maria Backes from the Chair for Digital Additive Production of the RWTH Aachen University have now developed an economical alternative: extreme high-speed laser material deposition or EHLA for short. This process not only offers companies a way out of the ban dilemma, but also provides significant advantages to hard chromium plating: No chemicals are used – which makes the process very environmentally friendly. The resulting layers are dense and can therefore protect the component from corrosion and wear more effectively. In addition, the coating is bonded to the base material in a material-locking manner so it cannot flake off, unlike the case with hard chromium plating. Various materials can be used for the new coatings, such as iron, nickel and cobalt-based alloys.The video will load shortlyCredit: Fraunhofer-GesellschaftThe new process is also attractive compared with thermal spraying – another common way of producing coatings: Because about 90 percent of the utilized material reaches the place where it is needed, instead of only about 50 percent. This makes the process far more resource-conserving and, therefore, significantly more economical. ”With the EHLA process, we can finally apply thin layers in the tenth-of-a-millimeter range to large areas in a very short time and in a manner which is efficient in terms of resources,” explains Dr.-Ing. Andres Gasser, who heads the Laser Material Deposition Group at the Fraunhofer ILT.
EHLA is based on Laser Material Deposition, which is used to produce high-quality coatings for various materials. As far as wear and corrosion protection is concerned, though, conventional Laser Material Deposition has so far only been possible in isolated cases – it is too slow. ”With EHLA, we can coat the component at speeds that are 100 to 250 times higher than those used in conventional Laser Material Deposition. In addition, it barely heats up. This allows us to coat heat-sensitive components as well,” says Dipl.-Ing. Gerhard Maria Backes. Further advantages: The resulting layer is purer and more effectively protects against corrosion. In addition, completely new material combinations are possible, such as coatings on aluminum or hard-weldable cast iron alloys.
Sustainable, environmentally friendly and saving jobs
The new process is already in use at some companies. For instance at the Dutch company IHC Vremac Cylinders B.V., who are using this process to coat their hydraulic cylinders (which are up to ten meters long) for offshore applications. Dipl.-Ing. Thomas Schopphoven sees great potential for the new coating technology: ”With EHLA, we could enter into series coating – and, in the future, even coat components that were previously used without coating. This makes new components possible that no longer wear out during the product life cycle. In addition, EHLA could keep coating technology, which is increasingly migrating into low-wage countries, here in Europe.”
For the development of the EHLA process, Dr.-Ing. Andres Gasser, Dipl.-Ing. Thomas Schopphoven and Dipl.-Ing. Gerhard Maria Backes have received this year’s Joseph von Fraunhofer Prize. The jury justified the presentation of the award with, among other things, ”the already performed implementation as well as the economical replacement of chromium(VI) in essential fields of application.”
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