03.08.2021 • NewsAdditive manufacturing

New hybrid coating process

Additive manufacturing with wire and powder enables resource-efficient and cost-effective wear-resistant coatings.

A team of researchers at the Fraunhofer Institute for Production Technology IPT in Aachen has developed a hybrid additive manufacturing process that combines wire-based and powder-based laser cladding (LMD). The new process can be used to apply protective coatings of high-strength tool steel to workpieces and repair surface defects at low cost. The tool coatings produced in this way are more wear-resistant, resource-efficient and cost-efficient than those produced by other methods. Following successful test series with tool components, there are plans to use the process to machine hydraulic components.

The combination of wire and powder resulted in hardness increases of the...
The combination of wire and powder resulted in hardness increases of the material of up to 30 %. (Source: Fh. IPT)

Additive manufacturing processes such as laser cladding (LMD) are used to manufacture components or optimize them locally. In LMD, a laser beam is focused on the component surface; at the same time, a filler material - usually in the form of powder or wire - is fed and melted. LMD is well suited for applying protective coatings to heavily stressed components, repairing damaged areas and changing the geometry of workpieces, even for short periods.

A team of scientists from the Fraunhofer IPT, together with its international project partners, has developed a hybrid variant of laser buildup welding in the recently completed ‘MatLaMeD’ research project, in which wire and powder are processed simultaneously. By adding hard material particles in powder form to the wire material, the team succeeded for the first time in selectively adjusting important material properties such as hardness and toughness of the applied layers. In addition, the process is significantly more cost-effective than a pure powder process and offers greater material flexibility than a pure wire process.

Individual material combinations for different requirements

To identify the best material combinations for different applications, the scientists tested numerous materials. As wire materials for the practical test series, they finally selected a hot-work tool steel with good structural stability and a low-alloy steel that can be welded well. As powder materials, they used chromium as a carbide-forming and grain-refining element and titanium carbide as a hard phase in the test series.

By combining wire and powder, the researchers were able to flexibly adjust the material composition for each application. The addition of the powder material made it possible to selectively change the microstructure of the tool steels and increase the hardness of the applied coatings: even the addition of small amounts of titanium carbide led to hardness increases of up to thirty percent. “With the new process, we can now respond quickly and flexibly to different thermal, chemical and mechanical loads, as we can adjust toughness and hardness with pinpoint accuracy,” says project manager Marius Gipperich. According to the Aachen scientist, the new process is a perfect tool for minimizing surface wear and significantly extending the service life of components.

Test series planned for machining hydraulic components

The positive results of the project provide the researchers with a basis for further developing the new method to develop other material systems with special properties. They are also planning to use the hybrid LMD process in various application areas, such as the machining of forming tools or the treatment of friction wear layers of hydraulic components.

The researchers are currently testing the possibilities for using the hybrid LMD process in the production of graded coating systems. To do this, they want to increase the titanium carbide content of the material mixture as much as possible. Since titanium carbide can cause high residual stresses that can increase susceptibility to cracking during welding, the Aachen research team would like to adjust the TiC content individually layer by layer.

The project ‘MatLaMeD – Development of new processes for hybrid laser cladding’ was funded as part of the ‘Innovations for tomorrow's production, services and work’ funding initiative of the German Federal Ministry of Education and Research (BMBF).

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Fraunhofer Institute for Production Technology IPT

Steinbachstr. 17
52074 Aachen
Germany

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