Hybrid Laser-Arc Welding of the High-Strength Shipbuilding Steels: Equipment and Technology

Physics Procedia Pub Date : 2017-01-01 DOI:10.1016/j.phpro.2017.08.005

G. Turichin , M. Kuznetsov , I. Tsibulskiy , A. Firsova

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引用次数: 40

Abstract

Hybrid laser-arc welding (HLAW) allows getting weld joints with thickness up to 35 mm for one pass, provide good quality formation of joints, minimal thermal deformations, the productivity in 10 times more in comparison with arc welding. In addition, replacement arc welding to the HLAW allows economizing filler materials, shielding gas and consumable electricity more than 4 times. Therefore, HLAW is actually technology for basic engineering branches and especially for shipbuilding. The Institute of Laser and Welding Technologies (ILWT) developed laser and hybrid laser-arc welding technologies for different type of steels and alloys including high-strength shipbuilding steels. Also ILWT produced portal and robotic systems for HLAW process realization. Portal system for hybrid laser-arc welding of panels with dimensions 6x6 m using at the manufacturing of flat curvilinear sections in the shipbuilding is depicted in the article. Results of experimental researches of the hybrid laser-arc welding parameters influence on the formation and mechanical properties of weld joint are described at the publication also. Experimental part was made with using of the portal system.

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高强度船舶钢的激光电弧复合焊接:设备与技术☆

混合激光弧焊(HLAW)可以获得厚度达35mm的焊接接头，提供良好的接头形成质量，最小的热变形，生产率是电弧焊的10倍以上。此外，将电弧焊替换为HLAW，可节省填充材料、保护气体和耗电4倍以上。因此，HLAW实际上是基础工程部门，特别是造船的技术。激光和焊接技术研究所(ILWT)为包括高强度造船用钢在内的不同类型的钢和合金开发了激光和混合激光弧焊技术。此外，ILWT还为HLAW流程的实现制作了门户和机器人系统。本文描述了用于制造船舶平坦曲线部分的尺寸为6x6m的面板混合激光弧焊的门户系统。文中还介绍了激光电弧复合焊接参数对焊缝成形和力学性能影响的实验研究结果。利用门户系统制作了实验部分。

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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Physics Procedia

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