Abstract
It is already known that the laser beam welding (LBW) or hybrid laser-arc welding (HLAW) processes are sensitive to manufacturing tolerances such as gaps and misalignment of the edges, especially at welding of thick-walled steels due to its narrow beam diameter. Therefore, the joining parts preferably have to be milled. The study deals with the influence of the edge quality, the gap and the misalignment of edges on the weld seam quality of hybrid laser-arc welded 20-mm-thick structural steel plates which were prepared by laser and plasma cutting. Single-pass welds were conducted in butt joint configuration. An AC magnet was used as a contactless backing. It was positioned under the workpiece during the welding process to prevent sagging. The profile of the edges and the gap between the workpieces were measured before welding by a profile scanner or a digital camera, respectively. With a laser beam power of just 13.7 kW, the single-pass welds could be performed. A gap bridgeability up to 1 mm at laser-cut and 2 mm at plasma-cut samples could be reached respectively. Furthermore, a misalignment of the edges up to 2 mm could be welded in a single pass. The new findings may eliminate the need for cost and time-consuming preparation of the edges.
Highlights
The hybrid laser-arc welding (HLAW) process became more importance for joining of thick-walled steels in the last years
These bring the economic advantages of the process compared to the common arc welding process such as gas metal arc welding and submerged arc welding (SAW) processes
It is well known that the beam-based welding processes such as HLAW are sensitive to gaps between the joining parts, edge quality and misalignment of the edges
Summary
The hybrid laser-arc welding (HLAW) process became more importance for joining of thick-walled steels in the last years. The effectiveness of the process lies in the reduction of the number of the layers and welding time especially for the welding of thick-walled steels. These bring the economic advantages of the process compared to the common arc welding process such as gas metal arc welding and submerged arc welding (SAW) processes. It is well known that the beam-based welding processes such as HLAW are sensitive to gaps between the joining parts, edge quality and misalignment of the edges. The use of an expensive clamping technology is unavoidable to ensure the exact positioning of the joining partners in
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