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TOKYO, May 17, 2018 - Mitsubishi Electric Corporation (TOKYO: 6503) and its affiliate company Tada Electric Co. announced today their joint development of a new fiber-laser welding technology that cuts flying molten metal (spatter) by 95 percent or more*. Whereas conventional spatter levels can lower the quality and speed of fiber-laser welding, the new low-spatter technology raises the welding quality and productivity of high-power fiber-laser welding for industrial applications such as steel processing, automobile production and electrical equipment installations. The new technology is expected to be incorporated in laser-welding machines that will appear in 2019.

  1. *Compared with conventional technology during welding using SPHC (hot rolled material)
Fig. 1. Visual comparison of spatter during fiber-laser welding

Visual comparison of spatter during fiber-laser welding

Key Features

  1. 1) Combined high/low-power laser beam reduces spatter by 95 percent or more for improved welding quality
    • Suppresses spatter regardless of welding speed by irradiating a low-power laser beam around the high-power laser beam.
    • New optical system simultaneously generates high-power and low-power laser beams from the output beam of feeding fiber.
    • 10-kW high-power fiber laser cuts spatter by 95 percent or more for improved weld quality.

    In laser welding, a deep penetration hole and a molten metal pool are formed in the area irradiated with the laser beam. Laser power can be raised for deeper penetration, but this can generate excessive spatter. Mitsubishi Electric and Tada Electric, after studying molten pools under a variety of welding conditions, conducting more than 10,000 experiments with a high-speed camera, discovered that spatter could be greatly suppressed by irradiating a low-power laser beam around the high-power beam. Later, using a newly developed optical beam-forming system installed at the output end of the optical fiber, a low-power laser was irradiated simultaneously around a high-power laser focused on the same point. Testing with a 10-kW high-power fiber laser confirmed that spatter could be reduced by more than 95 percent compared with a conventional system working at the same welding speed.

  2. 2) Doubles the speed of welding by suppressing spatter, contributes to increase in productivity
    • Welding speed does not need to be lowered to suppress spatter, so the system's 10-kW high-power fiber laser can weld at twice the speed of a conventional system when welding material of the same thickness.

    In conventional fiber-laser welding, spatter increases remarkably at certain welding speeds, requiring the speed to be lowered to ensure welding quality. However, using the technology announced today when raising the welding speed increases spatter only minimally, allowing for the full benefits of the laser's power to be utilized. In a test using SPHC (hot rolled material) with a thickness of 4.5 millimeters, the new technology's welding speed was double that of a conventional welding process.


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