背景(考古学)
职位(财务)
控制器(灌溉)
机器人
过程(计算)
机器人焊接
跟踪(教育)
控制系统
计算机科学
控制理论(社会学)
控制工程
工程类
焊接
模拟
控制(管理)
机械工程
人工智能
经济
操作系统
古生物学
电气工程
农学
生物
教育学
心理学
财务
作者
M. Karlsson,Fredrik Bagge Carlson,Martin Holmstrand,Anders Robertsson,Jeroen De Backer,L. Quintino,Eurico Assunção,Rolf Johansson
出处
期刊:Industrial Robot-an International Journal
[Emerald Publishing Limited]
日期:2023-02-10
卷期号:50 (5): 722-730
被引量:6
标识
DOI:10.1108/ir-06-2022-0153
摘要
Purpose This study aims to enable robotic friction stir welding (FSW) in practice. The use of robots has hitherto been limited, because of the large contact forces necessary for FSW. These forces are detrimental for the position accuracy of the robot. In this context, it is not sufficient to rely on the robot’s internal sensors for positioning. This paper describes and evaluates a new method for overcoming this issue. Design/methodology/approach A closed-loop robot control system for seam-tracking control and force control, running and recording data in real-time operation, was developed. The complete system was experimentally verified. External position measurements were obtained from a laser seam tracker and deviations from the seam were compensated for, using feedback of the measurements to a position controller. Findings The proposed system was shown to be working well in overcoming position error. The system is flexible and reconfigurable for batch and short production runs. The welds were free of defects and had beneficial mechanical properties. Research limitations/implications In the experiments, the laser seam tracker was used both for control feedback and for performance evaluation. For evaluation, it would be better to use yet another external sensor for position measurements, providing ground truth. Practical implications These results imply that robotic FSW is practically realizable, with the accuracy requirements fulfilled. Originality/value The method proposed in this research yields very accurate seam tracking as compared to previous research. This accuracy, in turn, is crucial for the quality of the resulting material.
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