Analysis of Autogenous Laser Welding in Low Carbon and Large Thickness Steel

Q3 Engineering Journal of Mechanical Engineering Research and Developments Pub Date : 2021-08-25 DOI:10.30564/JMER.V4I2.3381

D. Kohls, Carlos Enrique Niño Bohórquez, Enori Gemilli, Majorie Anacleto Bernardo

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Abstract

With the use of laser welding, it is possible to join different steel, with different thicknesses, with or without the action of protective layers. The quality of laser radiation makes it possible to get certain characteristics that are impossible to get by other processes, such as high welding speeds, less metallurgical effects suffered by the heat-affected zone (ZAC), and this process also does not require filler metal, therefore it is free from possible contamination. Combined with traditional welding methods, laser welding produces narrower weld beads, allowing for better prevention of corrosion and thermal distortions. Although the process already has high industrial knowledge, some random defects, such as porosities and inconsistencies, are still found. This work presents a systematic study to determine the influence of laser welding parameters and how these parameters influence welding defects. For this, the experimental part was carried out in the welding laboratory - LABSOLDA, of the Federal University of Santa Catarina - UFSC, during the laser welding processes, a welding speed of 2.4 m/min was reached. For this experiment, argon was used as a shielding gas and 1020 steel was used as the base material.

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低碳大厚度钢的自激光焊接分析

使用激光焊接，可以连接不同的钢，具有不同的厚度，有或没有保护层的作用。激光辐射的质量使得它可以获得其他工艺无法获得的某些特性，例如高焊接速度，热影响区(ZAC)所遭受的冶金效应较小，并且该工艺也不需要填充金属，因此它没有可能的污染。与传统焊接方法相结合，激光焊接产生更窄的焊珠，可以更好地防止腐蚀和热变形。虽然该工艺已经具有很高的工业知识，但仍然会发现一些随机缺陷，如孔隙和不一致。本文对确定激光焊接参数的影响以及这些参数对焊接缺陷的影响进行了系统的研究。为此，实验部分在圣卡塔琳娜联邦大学- UFSC焊接实验室LABSOLDA进行，在激光焊接过程中，焊接速度达到2.4 m/min。本实验以氩气为保护气体，以1020钢为基材。

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来源期刊

Journal of Mechanical Engineering Research and Developments Engineering-Computational Mechanics

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0.00%

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审稿时长

9 weeks

期刊介绍： The scopes of the journal include, but are not limited to, the following topics: • Thermal Engineering and Fluids Engineering • Mechanics • Kinematics, Dynamics, & Control of Mechanical Systems • Mechatronics, Robotics and Automation • Design, Manufacturing, & Product Development • Human and Machine Haptics Specific topics of interest include: Advanced Manufacturing Technology, Analysis and Decision of Industry & Manufacturing System, Applied Mechanics, Biomechanics, CAD/CAM Integration Technology, Complex Curve Design, Manufacturing & Application, Computational Mechanics, Computer-aided Geometric Design & Simulation, Fluid Dynamics, Fluid Mechanics, General mechanics, Geomechanics, Industrial Application of CAD, Machinery and Machine Design, Machine Vision and Learning, Material Science and Processing, Mechanical Power Engineering, Mechatronics and Robotics, Artificial Intelligence, PC Guided Design and Manufacture, Precision Manufacturing & Measurement, Precision Mechanics, Production Technology, Quality & Reliability Engineering, Renewable Energy Technologies, Science and Engineering Computing, Solid Mechanics, Structural Dynamics, System Dynamics and Simulation, Systems Science and Systems Engineering, Vehicle Dynamic Performance Simulation, Virtual-tech Based System & Process-simulation, etc.