Polski

The world's highest power industrial grade fiber laser is released in Tianjin

876
2024-09-02 15:11:11
Zobacz tłumaczenie

On August 31st, Tianjin Kaipulin Optoelectronics Technology Co., Ltd. (hereinafter referred to as Kaipulin), a Tianjin Port Free Trade Zone enterprise, officially released the world's first 200000 watt ultra-high power industrial grade fiber laser, breaking the record for the highest power of industrial grade fiber lasers in the world and marking China's stable position in the international advanced field.

 



As the mainstream direction of laser technology development and the main force of laser industry applications, fiber lasers are widely used in industrial processing and scientific research fields. Ultra high power fiber lasers, with their advantages of higher laser power, stronger cutting capability, and faster processing speed, are gradually replacing traditional high pollution and high-energy consumption processing methods such as flame cutting and plasma cutting, and helping traditional manufacturing industries transform and upgrade.

Following the release of the world's first 150000 watt ultra-high power industrial grade fiber laser in March this year, Keplin has successfully surpassed its new target of 200000 watts of power. It is reported that the key technology of Keplin's 200000 watt product has independent intellectual property rights, with 12 authorized invention patents, 11 utility model patents, and 1 design patent. This laser, with its chip integration technology, ultra-high power beam combining and output technology, femtosecond laser fiber grating engraving technology, and other innovative breakthroughs, greatly improves the efficiency of metal ultra thick plate processing. For example, the cutting operation that used to take 3 to 5 minutes to complete with a 60000 watt fiber laser is expected to be completed in just 1 minute after upgrading to a 200000 watt power, "Jin Dongchen, the head of research and development at Keplin High Power Laser, told reporters.

Zhou Shouhuan, an academician of the CAE Member and an expert in optoelectronics and laser technology, said that in the field of high-power fiber lasers, Chinese laser enterprises represented by Capprin are actively engaged in innovative research and development. The world's highest power industrial grade fiber laser released this time will open up broader space for industrial manufacturing, national defense security, scientific research exploration and other fields, indicating that a new wave of industrial upgrading and transformation will sweep across.

While challenging the power limit, Keplin ultra-high power fiber lasers have been widely used in industrial processing, scientific research, and other fields. On the same day, domestic leading laser cutting equipment enterprise Jinweike and Keplin signed an intention to cooperate agreement, and the two sides will carry out in-depth cooperation in the field of ultra-high power laser applications, jointly promoting technology transformation and industrial upgrading.

Tianjin is the main production base of Keplin. In 2021, the first phase of the automated factory invested and constructed by Keplin in Tianjin Port Free Trade Zone was put into operation and achieved full load operation. In May of this year, the second phase of the intelligent chemical plant began trial production. Currently, the third phase of the project is being intensively constructed. Gan Lu, Deputy Director of the Investment Promotion Bureau of the Tianjin Port Free Trade Zone Management Committee, stated that as a technology innovation enterprise, Keplin's research and development achievements have provided a good demonstration effect for attracting more high-end manufacturing enterprises and R&D institutions to settle in the bonded zone. The bonded zone will continue to optimize the business environment and provide strong guarantees for the innovative development of enterprises. After the completion of the third phase of the project, Keplin will further strengthen the coordinated development of its semiconductor, fiber optic, and ultrafast business units, accurately connect diversified industrial processing needs, drive the coordinated development of upstream and downstream enterprises in the industrial chain, break the dependence on high-end laser imports, and help the development of China's industrial processing and other fields, "said Jin Dongchen.

Powiązane rekomendacje
  • Nubis Communications to be acquired by Ciena

    Recently, in Hanover, Maryland, telecommunications company Ciena reached an agreement with Nubis Communications to acquire it for $270 million. Nubis Communications focuses on high-performance, ultra compact, and low-power optoelectronic interconnect products designed to support artificial intelligence (AI) workloads. This transaction will expand Ciena's product portfolio and enhance its ability t...

    09-29
    Zobacz tłumaczenie
  • Researchers at Georgia Institute of Technology have developed cost-effective nanoscale printing

    A team of researchers from Georgia Institute of Technology has developed a scalable printing system for metal nanostructures using a new technology called superluminescent light projection. The inventor of this technology Dr. Sourabh Saha and Jungho Choi submitted a patent application for nanoscale printing.Nowadays, the cost of existing nanoscale printing technologies hinders their widespread use...

    2024-02-19
    Zobacz tłumaczenie
  • Shanghai Optical Machine has made progress in frequency shift of even harmonic of single layer MoS2

    Recently, the research team of the State Key Laboratory of High-Field Laser Physics at the Shanghai Institute of Optics and Fine Mechanics of the Chinese Academy of Sciences has made progress in using high-field lasers to drive the even harmonic frequency shift of single-layer MoS2. The results were published in Optics Express under the title "Frequency shift of even-order high harmonic generation...

    2023-09-07
    Zobacz tłumaczenie
  • Progress has been made in the research of phase modulation of terahertz programmable metasurfaces based on free carrier plasmonic dispersion effect

    Recently, the team of Situ Guohai and Guo Jinying from the Aerospace Laser Technology and Systems Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, and the School of Microelectronics at Shanghai University collaborated to propose a terahertz phase controlled programmable metasurface design scheme based on free carrier plasma dispersion effect. The rela...

    2024-07-26
    Zobacz tłumaczenie
  • Laser fusion breakthrough brings greater energy explosion

    Recently, scientists from the National Ignition Facility at Lawrence Livermore National Laboratory in California produced a burst of energy by bombarding hydrogen pellets with 192 laser beams, briefly reproducing the fusion process that powers the sun. This is a repeat of an experiment in December last year, but this time the scientists generated more energy, with a gain almost double that of the ...

    2023-09-26
    Zobacz tłumaczenie