chanelink logo
CHANELINK
简体中文

Samsung Heavy Industries Developing a Laser High Speed Welding Robot for Liquefied Natural Gas Ships

440
2023-09-22 15:04:02
查看翻译

South Korea's Samsung Heavy Industry announced on Thursday that it has developed the first laser high-speed welding robot in the maritime field, aimed at significantly improving the construction efficiency of liquefied natural gas (LNG) transport ships.

This new technology is specifically designed for rapid welding of thin film panels used in cargo compartments of liquefied natural gas transport ships. These films are made of thin layers of stainless steel and come into direct contact with ultra-low temperature liquid natural gas.

Compared to the traditional plasma arc welding (PAW) method, which takes about 5 minutes to weld a 2-meter-long membrane plate, the new robot can complete the task in just 1 minute.

The laser high-speed welding robot is developed by Samsung Production Technology Research Center and uses a swinging method to rotate the laser beam at precise intervals and speeds.

This technology also has defocusing function for adjusting the focus and laser displacement sensor for automatically positioning the bending welding position.

The integration of this advanced welding technology is expected to significantly improve the productivity of shipbuilding companies in the construction of liquefied natural gas transport ships.

The company plans to conduct application testing with the French engineering company GTT's liquefied natural gas cargo hold (MK-III) and begin full-scale production using this technology after obtaining final customer approval later this year.

Cui Douzhen, the head of Samsung Heavy Industry Production Technology Research Center, said: "Laser high-speed welding robots will become the core technology to maintain overwhelming competitiveness in the key process of liquefied natural gas transport ship cargo hold construction." "We plan to expand its application to the cargo hold of ultra-low temperature liquid hydrogen transport ships in the future.

Source: Laser Network

相关推荐

  • Overview of Ultra Short Pulse Laser Processing of Wide Bandgap Semiconductor Materials

    Professor Zhang Peilei's team from Shanghai University of Engineering and Technology, in collaboration with the research team from Warwick University and Autuch (Shanghai) Laser Technology Co., Ltd., published a review paper titled "A review of ultra shot pulse laser micromachining of wide bandgap semiconductor materials: SiC and GaN" in the international journal Materials Science in Semiconductor...

    2024-07-30
    查看翻译

  • Polarization polariton topology pointing towards a new type of laser

    Semi light, partially matter quasi particles, known as excitons polaritons, can easily bypass obstacles and condense into a single coherent state - both of which are characteristics of topological insulators. Researchers from the United States and China have developed a new technology to manufacture microcavities from chloride based halide perovskites. They expect this work to lead to a new type o...

    2024-05-30
    查看翻译

  • NSF funding for collaboration between researchers from Syracuse University and Cosmic Explorer

    Billions of years ago, in a distant galaxy, two black holes collided, triggering one of the most extreme cosmic events in the universe. The power of this phenomenon is so great that it distorts the structure of spacetime, emitting ripples called gravitational waves.These waves will eventually be detected on Earth by the Advanced Laser Interferometer Gravity Wave Observatory (LIGO) detector, and te...

    2023-10-13
    查看翻译

  • The fiber laser system overcomes outdated issues through a PC based EtherCAT control platform

    In order to maintain relevance and success, companies with a long history must respect their past while not ignoring the future. This is the method adopted by Cincinnati Corporation (CI), a metal processing machinery manufacturer based in Harrison, Ohio, since its establishment in the late 1890s.The company is carefully considering technological changes. Incorrect selection of control hardware, ne...

    2024-05-25
    查看翻译

  • Demonstrating broadband thermal imaging using superoptical technology in a new framework

    The research team used a new reverse design framework to demonstrate ultra optical broadband thermal imaging for applications ranging from consumer electronics to thermal sensing and night vision.The new framework, known as the "Modulation Transfer Function" project, solves the challenges related to broadband metaoptics by determining the functional relationship between image contrast and spatial ...

    2024-03-19
    查看翻译