厚钢板高速激光-电弧组合焊接的动态观察(物理、工艺、仪器与测量)

N. Abe, Y. Kunugita, M. Hayashi, Yoshiaki Tsuchitani
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引用次数: 16

摘要

超前路径激光-电弧组合焊(lplacc)是一种激光-电弧组合焊,具有激光束的超前路径,比传统的激光-电弧组合焊具有更深的熔深。与传统的窄V型坡口弧焊相比,焊接速度更快,焊接更稳定。为了阐明这种更有效的原因,使用每秒500帧的高速摄像机观察了激光等离子体、电弧等离子体和熔融金属在lplacs焊接过程中的行为。结果表明,激光等离子体使电弧稳定在激光与电弧之间的最佳距离,这说明了该方法具有很高的速度和深穿透性。超前路径激光-电弧组合焊(lplacc)是一种激光-电弧组合焊,具有激光束的超前路径,比传统的激光-电弧组合焊具有更深的熔深。与传统的窄V型坡口弧焊相比,焊接速度更快,焊接更稳定。为了阐明这种更有效的原因,使用每秒500帧的高速摄像机观察了激光等离子体、电弧等离子体和熔融金属在lplacs焊接过程中的行为。结果表明,激光等离子体使电弧稳定在激光与电弧之间的最佳距离,这说明了该方法具有很高的速度和深穿透性。
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Dynamic Observation of High Speed Laser-Arc Combination Welding of Thick Steel Plates(Physics, Processes, Instruments & Measurements)
Leading Path Laser-Arc Combination (LPLAC) welding, which consists of laser-arc combination welding with a leading path for the laser beam, enables much deeper penetration than conventional laser-arc combination welding. It also enables higher speed and more stable welding compared with the conventional arc welding with a narrow V groove. To elucidate the reasons for this greater effectiveness, the behavior of the laser plasma, arc plasma, and the molten metal were observed during LPLAC welding using a high-speed video camera operating at 500 frames per second. It was found that the laser plasma stabilized the arc at an optimal distance between the laser and the arc, accounting for the very high speed and deep penetration of this method.Leading Path Laser-Arc Combination (LPLAC) welding, which consists of laser-arc combination welding with a leading path for the laser beam, enables much deeper penetration than conventional laser-arc combination welding. It also enables higher speed and more stable welding compared with the conventional arc welding with a narrow V groove. To elucidate the reasons for this greater effectiveness, the behavior of the laser plasma, arc plasma, and the molten metal were observed during LPLAC welding using a high-speed video camera operating at 500 frames per second. It was found that the laser plasma stabilized the arc at an optimal distance between the laser and the arc, accounting for the very high speed and deep penetration of this method.
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