In order to decrease the buckling distortion of thin-walled structures, a new electron beam welding method with simultaneous multi-beam preheating on both sides of the weld is proposed. Compared with traditional electron beam welding, this method can effectively reduce welding distortion, without the use of auxiliary clamping fixtures or post-weld heat treatment. In the finite element analysis, the conical Gaussian heat source model was selected as the heat source for welding and the rectangle uniform plane heat source model was selected as the heat source for multi-beam preheating. The temperature distribution, thermal stress and welding distortion of welded SUS304 stainless steel sheets were simulated and a series of experiments were conducted to verify the feasibility of electron beam welding with multi-beam preheating. Experiment and simulation results show that the temperature distribution with multi-beam preheating is more uniform and thermal tensioning effect caused by multi-beam preheating can reduce the compressing stress in the welding zone. Therefore, the application of multi-beam preheating method can reduce the plastic compressing deformation and final buckling distortion of thin-walled structures. Using this method, maximal 80% reduction of the buckling distortion can be achieved.
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