English

New technology from Swedish universities enables real-time laser beam forming and control

239
2024-12-19 15:35:20
See translation

Dr. Yongcui Mi from Western University in Sweden has developed a new technology that enables real-time laser beam shaping and control for laser welding and directional energy deposition using laser and metal wire. This innovative technology draws on the mirror technology used in advanced astronomical telescopes.



Adaptive beam shaping using deformable mirror technology (Image source: Western University)

 


In the coming years, this new technology is expected to achieve more efficient and reliable high-power laser welding, as well as directional energy deposition using lasers and welding wires. The manufacturing industry will be able to benefit from it by building more robust processes that meet strict quality standards.

Dr. Yongcui explained, "We are the first team to introduce deformable mirror technology into this application. This type of mirror optical component can withstand several kilowatts of laser power, and with the help of computer vision and human AI technology, the laser beam can adjust its shape in real time according to the dynamic changes in the joint gap.

At present, the manufacturing industry faces many challenges in high-power laser welding without filler wire. Due to the variation of joint gap width, defects often occur during the welding process.

Dynamic laser beam forming
Dr. Yongcui stated, "In order to achieve a robust and defect free joint, the shape of the laser beam needs to adapt to changes in the width of the weld seam. With this technology, the laser beam can dynamically change its shape during the welding process, filling a gap of 0.6 millimeters when processing a 2mm thick steel plate. The shape of the laser beam can be changed within 10 microseconds, and by using multiple elliptical laser beam shapes, we can significantly improve the welding quality compared to traditional circular static laser beams. Test data shows that this method can reduce the deformation degree of the workpiece by 80%.

In addition, researchers also tested a new technology of directional energy deposition using lasers and welding wires, and the results showed that dynamic laser beam forming technology can provide a more efficient and reliable processing technology for high-power lasers.

Save time and money
The researchers stated, "The results of this study indicate that dynamic laser beam forming technology has great potential in the fields of laser welding and directed energy deposition combining laser and welding wire. This technology not only improves the flexibility of the process, but also achieves higher quality. In addition, it can significantly reduce material waste and energy consumption, saving time and money.

Western University has collaborated with Italian company Dynamic Optics to develop this deformable mirror. Dynamic Optics mainly manufactures mirror optical components for high-end telescopes used by astronomers. This mirror technology was first developed by the University of Padua in Italy in the 1950s, and since then, it has improved the ability of telescopes to capture clear images of stars, planets, and other celestial bodies.

Customized mirror design
Dr. Yongcui stated, "The mirrors used in our project are customized for specific applications, and integrating, debugging, and validating the prototype equipment using this cutting-edge technology is the most challenging and time-consuming part of this research." Dr. Yongcui also collaborates with industrial partners such as GKN Aerospace, Brogren Industries, and Procada. This technology has attracted widespread attention from industries related to high-power lasers, including next-generation aircraft engines, electric vehicles, and other industrial application manufacturers with strict technical requirements. "Currently, we still need further research to ensure that this technology can achieve large-scale production in the coming years.

Source: Yangtze River Delta Laser Alliance

Related Recommendations
  • A major investment! Lumentum completes acquisition of research and development site in Carswell, UK

    Lumentum, a leading designer and manufacturer of innovative optical and photonic products, has announced that it has completed the acquisition of a site in Caswell, UK.Lumentum revealed that it has made significant investments in the site over the past two years and is currently undergoing development upgrades for its state-of-the-art cleanrooms and laboratories to continue to support the developm...

    2023-09-13
    See translation
  • Shanghai Institute of Optics and Fine Mechanics has made progress in the research of interferometer wavefront calibration methods

    Recently, the research team of the High end Optoelectronic Equipment Department at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, has made progress in the study of wavefront calibration methods for interferometer testing. The relevant research results were published in Optics Express under the title of "High precision wavefront correction method ininterometer tes...

    2024-07-23
    See translation
  • Chip based comb laser illumination and unlocking of new applications

    Researchers have shown that dissipative Kerr solitons (DKS) can be used to create chip based optical frequency combs with sufficient output power for optical atomic clocks and other practical applications. This progress may lead to chip based instruments being able to perform precise measurements that were previously only possible in a few specialized laboratories.Gr é gory Moille from the ...

    2023-08-30
    See translation
  • Progress in Calibration of Large Aperture Diffractive Lenses in the High Power Laser Physics Joint Laboratory of Shanghai Institute of Optics and Mechanics

    Recently, the High Power Laser Physics Joint Laboratory of Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, proposed a single exposure interferometric calibration method for large aperture diffractive lenses, which provides strong support for the engineering application of large aperture diffractive lenses. The relevant achievements are published in Optics Letters as "...

    2023-10-14
    See translation
  • New discoveries bring progress in photon calculation

    International researchers led by Philip Walther from the University of Vienna have made significant breakthroughs in the field of quantum technology, successfully demonstrating quantum interference between multiple single photons using a new resource-saving platform. This work, published in Science Advances, represents a significant advancement in the field of quantum computing and paves the way f...

    2024-04-27
    See translation