Publication date: 5 February 2017
Source:Materials & Design, Volume 115
Author(s): Ning Guo, Xiao Xing, Hongyun Zhao, Caiwang Tan, Jicai Feng, Zongquan Deng
A series of experiments under various water depths were performed using an optical fiber laser without draining the welding zone to study the effect of water depth on the laser welding. The ULBW processes were also monitored using a camera. Firstly, welding experiments were performed with laser power 3.0kW, welding speed 0.6m/min, focal position 0mm. It was found that water has a slight effect on the ULBW, particularly when the water depth is less than 3mm; however, when the water depth is greater than 7mm, water has a strong hindering effect on ULBW and leads it to failure. In the process of direct ULBW, the 'beam channel' is formed in the water environment between the incident laser beam and the target surface as a result of the gas pressure inside the plasma exceed the water pressure depending on the water depth. The stability of the 'beam channel', which gradually worsens with increasing water depth, have an important influence on the weld bead quality and the welding process stability. Additionally, laser power has the greatest effect on the available water depth, followed by the welding speed, while focal position has little effect on it.
Graphical abstract
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