Imagine Optic and Europe Technologies talk about how they were able to develop a Fibered LASER Shock Peening
Can you describe the technology behind your experiment?
Laser Peening is a laser-based process which permits to improve the lifetime of
metallic parts that are subjected to severe mechanical stresses.
This technique is a laser-induced plasma that creates a shockwave which, when propagating through the volume of the treated part, creates a compression stress which in turn increases its fatigue life.
This process has emerged a few decades ago as a key technology to overcome parts failures as it has given full satisfaction in terms of performance.as it does not bring foreign object debris (FODs).
While laser peening has been historically relying on very expensive multi Joules lasers, low-energy laser peening
involving few hundreds of milliJoules beams emerged in the 2000’s.
Such a process paves the way for a more flexible use of the laser peening technology and that is why in last few years
Europe Technologies has been involved in the shot-peening and ultrasonic shot-peening since its creation and brings to the project its field expertise to the process
and residual stress characterization.
How will your solution impact the market/industry?
This fibering breakthrough is an important milestone in the deployment of the laser technology in industrial processes such as laser peening.In fact, such a technology completely removes free-space propagation from the laser source to the focusing optical head.
This has the following main advantages:
- Remove the complexity of free-space
propagation which involves expensive precise beam aiming optics.
- Decrease the constraints on ocular security
as the beam is completely confined in the optical fibre.
- Lighten the process burden as the beam can
now be brought directly to the part without it being dismantled while
high-energy laser peening implies part disassembly
- Access confined and complex parts
What do you expect to achieve from cooperation with PULSATE?
Imagine Optic and Europe Technologies expect to benefit from PULSATE by cooperating with the mentor from
MTC (Manufacturing Technology Center) who, based on their rich experience in
the field, helps guide the next actions while the project unfolds.
As a matter of fact laser peening can for example be employed in a hybrid
process combined with additive manufacturing in order to enhance the parts
hardness not only on their surface but also in their volume.
Other processes can also be targeted as high-energy injection into optical fibres can be beneficial for LIBS, Laser Ultrasonics and Laser Cleaning. These three processes could enhance the manufacturing quality of key parts in many fields.
How do you think cooperation with PULSATE will contribute to the development of your company?
The project is of great interest as it will bring Imagine Optic and Europe
Technologies a clearer insight on what capabilities can their developed
technologies bring to end users in aerospace, naval or energy industries.
Based on this rich PULSATE experience, both companies will gain an important
scientific knowledge as the laser peening optimized parameters will be better
In addition to that, the experiment will bring a more thorough knowledge of the markets of interest but also help communicate to potential end users the data that will have been accumulated during the project.
Imagine Optic and Europe Technologies will add to their current catalogues a new fibered laser peening machine which will open up new horizons to both companies.
What are the main challenges for your solution/LBAAM adoption?
Even though laser peening has confirmed its great potential for material fatigue enhancement, it has not been widely deployed so far for reasons ranging from the fact that it is a quite expensive installation to the fact that it still represents a complex process.
Another critical point is the processing speed which will have to be increased in order to meet the speeds that are already obtained with high-energy non-fibered laser peening machines.
Therefore, the main challenges seem to be quite clear: try to make the process as user-friendly and as cost-effective as possible.
What do you think the future of LBAAM will be like?
Continuous efforts are made in order to push the limits of our technology. In fact, higher energy transmission through longer smaller-core and more flexible optical fibres is our main objective.
Of course, the ultimate goal of this is that our technology meets the standards of numerous laser-based manufacturing and material analysis processes.
An interesting vision of what would the future of LBAAM be like would be the merging of different laser-based processes such as Laser Peening, Laser Ultrasonics, LIBS and Laser Cleaning in order to obtain the ultimate material processing and characterization for more robust and lightweight parts.
Nominate another innovator from Photonics Industry that could be showcased to our community
Alphanov is a technology centre based in Bordeaux, France and acts as an innovator for laser based processes and solutions in close collaboration with industrial partners.
With a machine parc of more than 15 laser stations many laser based processes like engraving, drilling and surface functionalization can be realized on complex parts.
The individual solution for each technological challenge is not only based on the best fit of laser parameters like wavelength, pulse energy and focal spot size but comprises a holistic configuration including beam engineering, machine tool handling and control of ambient atmosphere.
Alphanov offers their various platforms and expertise to industrial partners seeking photonics based innovation.
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Information source: flasp
Imagine Optics, France
Europe Technologies, France
Laser-based advanced and additive manufacturing
Laser Peening, Photonics, Optical Fiber, Laser Processing