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04.03.2026 11:08

Fraunhofer ILT and Cailabs join forces in wire-based laser material deposition

Petra Nolis M.A. Marketing & Kommunikation
Fraunhofer-Institut für Lasertechnik ILT

Fraunhofer ILT and Cailabs are entering a development partnership to advance wire-based laser material deposition for demanding industrial applications. Cailabs contributes a new, particularly compact process head based on its MPLC beam-shaping technology. The head weighs less than five kilograms and allows the use of laser powers above twelve kilowatts. This combination of compact size, high available laser power and precise beam shaping has not been available in this form before. Based on this, Fraunhofer ILT develops and qualifies suitable process parameters for different component geometries and use cases.

In many industrial processes, wire serves as an additive material to build up or repair components. Wire is easy to handle, safe to use and can be fed precisely. It is often more cost-efficient than powder, and some alloys are only available in wire form. However, wire-based deposition heads have traditionally been more complex and heavier than powder-based heads. This has made their use more demanding, especially when the head needs to be moved along workpiece contours.

Fraunhofer ILT and the French company Cailabs are now expanding their collaboration in wire-based laser deposition. Cailabs contributes the Canunda-DED process head based on its Multi-Plane Light Conversion (MPLC) technology. This coaxial beam-shaping principle distributes the laser energy in a controlled and reproducible way around the wire. This allows precise control of the energy input, even at high power levels.

Building on this, Fraunhofer ILT develops suitable process parameters and qualifies the system for various applications across different industrial sectors. The precise beam profile supports a consistent energy input into the wire. This enables uniform deposition even where fine contours or locally confined material buildup are required.

Compact process head for industrial applications

The aim of the collaboration is a compact head with a total weight of less than five kilograms, light enough to be mounted directly on a robot arm and smoothly integrated into existing systems. At the same time, the partners intend to enable the use of laser power levels above twelve kilowatts. This will support the repair and buildup of larger components and help reduce processing times.

“At Cailabs, we aim to develop products with strong industrial impact, built on our core beam-shaping technology,” says Jean-François Morizur, CEO of Cailabs. “We believe this collaboration with Fraunhofer ILT will demonstrate the full potential of our approach for advanced manufacturing.”

Process knowledge meets precise beam shape

In many industrial applications, such as turbine or tools repair, very small and precise structures are required. With the new beam profile and Fraunhofer ILT’s process know-how, structures with a width below one millimeter are targeted, an important step toward precise repair and high-resolution hybrid manufacturing.

“We have already developed wire-based deposition processes for critical applications such as aerospace, energy systems and tooling,” says Dr. Thomas Schopphoven, Head of Laser Material Deposition at Fraunhofer ILT. “This experience flows directly into process control, material selection and analysis of melt pool dynamics.”

The team led by Schopphoven is currently defining parameter windows for different processing scenarios using physics-based simulations. This includes tuning wire feed, wire diameter, laser power and guideway strategies for different materials. In parallel, the robot-guided system environment is being set up, where the Canunda-DED head will be tested.

New freedom for robot arms

Cailabs, based in Rennes, is one of the leading companies in advanced laser beam shaping. Its MPLC technology uses several phase-shaping planes to form stable and reproducible beam profiles. The approach has proven effective in fields where high beam quality is crucial, such as aerospace, optical communications and industrial laser processing. It is low-loss, robust and stable even at high power levels.

Because the new head remains compact, it can be mounted directly on a robot arm. This opens new possibilities: robots and production systems gain access to areas that were previously difficult to reach with larger, stationary deposition heads, for example when repairing small components or inner contours.

The two partners are currently preparing system trials. The focus is on coordinating beam profile, wire feed and guideway to achieve stable operation under continuous use. In parallel, preparations are being made for real industrial use cases, such as the repair of complex component geometries or the buildup of fine edges.

AKL – International Laser Technology Congress

The latest leading-edge developments in laser technology will be highlighted at the 15th AKL – International Laser Technology Congress, taking place in Aachen, Germany, from April 22 to 24, 2026. The congress brings together experts from industry and research to discuss current topics and trends in laser technology for production. As part of the conference program, Cailabs will contribute a technical presentation.

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Wissenschaftliche Ansprechpartner:

Professional contact

Dr.-Ing. Thomas Schopphoven
Head of department Laser Material Deposition
Telephone +49 241 8906-8107
thomas.schopphoven@ilt.fraunhofer.de

Max Gero Zimmermann M. Sc.
Group leader Additive Manufacturing and Repair LMD
Telephone +49 241 8906-253
max.zimmermann@ilt.fraunhofer.de

Fraunhofer Institute for Laser Technology ILT
Steinbachstraße 15
52074 Aachen, Germany
www.ilt.fraunhofer.de

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Weitere Informationen:

https://www.ilt.fraunhofer.de/en

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Fraunhofer ILT and Cailabs jointly explore new approaches for high-performance wire-based laser mate ...
Quelle: Volker Lannert
Copyright: © Fraunhofer ILT, Aachen, Germany.

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From laboratory to application: The Fraunhofer ILT and Cailabs collaboration on wire-based laser mat ...
Quelle: Volker Lannert
Copyright: © Fraunhofer ILT, Aachen, Germany.

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