Reduction of distortion during laser beam welding by applying an in situ alloyed LTT effect and considering influencing factors

Procedia CIRP Pub Date : 2024-01-01 DOI:10.1016/j.procir.2024.08.143

Maximilian Gamerdinger , Simon Olschok , Uwe Reisgen

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Abstract

In rail vehicle construction, austenitic stainless steels are used to achieve lightweight design concepts, as the higher specific strength of the material allows the thickness of parts to be reduced. However, when these are welded to create complex structures, increased welding distortion occurs even with low-heat joining processes such as laser beam welding.

In order to reduce distortion, an in situ low transformation temperature (LTT) effect has been achieved using commercially available materials rather than specially manufactured LTT alloys. The LTT effect introduces compressive stresses into the weld seam, which counteract the formation of welding distortion due to tensile stresses. However, in the case of complex structures, several other factors influence the formation of distortion. The influence of the LTT effect and other factors such as tack welding, clamping and cooling conditions were analysed by distortion measurements and a maximum distortion reduction was determined.

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通过应用原位合金化 LTT 效应并考虑影响因素，减少激光束焊接过程中的变形

在轨道车辆制造中，奥氏体不锈钢用于实现轻量化设计理念，因为这种材料的比强度较高，可以减小部件的厚度。然而，当这些材料被焊接成复杂的结构时，即使采用激光束焊接等低热连接工艺，也会出现焊接变形增大的情况。为了减少变形，我们使用市场上可买到的材料而不是专门制造的低转变温度（LTT）合金来实现原位低转变温度（LTT）效应。LTT 效应可在焊缝中引入压应力，从而抵消拉应力导致的焊接变形。然而，在复杂结构的情况下，其他一些因素也会影响变形的形成。通过变形测量分析了 LTT 效应和其他因素（如粘焊、夹紧和冷却条件）的影响，并确定了最大变形减少量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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