Robotic friction stir welding – seam-tracking control, force control and process supervision

Karlsson, Martin; Carlson, Fredrik Bagge; Holmstrand, Martin; Robertsson, Anders; Backer, Jeroen De; Quintino, L.; Assunção, Eurico

doi:10.1108/ir-06-2022-0153

Cited by 3 publications

(1 citation statement)

References 19 publications

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“…Guan et al [61] used machine learning, and Rabe et al [62] used a deep learning approach to determine weld quality based on force characteristics during welding. Karlsoon et al [63] used an industrial robot to develop a closed-loop control system for seam-tracking and force control during welding. The welds formed were defect-free, proving robots can be used effectively to conduct the welding process.…”

Section: Fsw Modellingmentioning

confidence: 99%

A Review of Optimization and Measurement Techniques of the Friction Stir Welding (FSW) Process

Prabhakar,

Korgal,

Shettigar

et al. 2023

JMMP

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This review reports on the influencing parameters on the joining parts quality of tools and techniques applied for conducting process analysis and optimizing the friction stir welding process (FSW). The important FSW parameters affecting the joint quality are the rotational speed, tilt angle, traverse speed, axial force, and tool profile geometry. Data were collected corresponding to different processing materials and their process outcomes were analyzed using different experimental techniques. The optimization techniques were analyzed, highlighting their potential advantages and limitations. Process measurement techniques enable feedback collection during the process using sensors (force, torque, power, and temperature data) integrated with FSW machines. The use of signal processing coupled with artificial intelligence and machine learning algorithms produced better weld quality was discussed.

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Section: Fsw Modellingmentioning

confidence: 99%

A Review of Optimization and Measurement Techniques of the Friction Stir Welding (FSW) Process

Prabhakar,

Korgal,

Shettigar

et al. 2023

JMMP

View full text Add to dashboard Cite

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Friction stir based welding, processing, extrusion and additive manufacturing

Liu,

Feng,

Pei

et al. 2024

Progress in Materials Science

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Revolutionizing Friction Stir Welding With AI-Integrated Humanoid Robots

Ahamed,

Chakravarthy,

Arputhabalan

et al. 2024

Advances in Computational Intelligence and Robotics

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This chapter explores the use of AI-integrated humanoid robots in friction stir welding (FSW), a crucial process for joining materials without melting. By combining AI capabilities with humanoid robots' dexterity and adaptability, significant advancements can be achieved. AI algorithms can improve precision and accuracy by continuously analyzing real-time sensor data, while AI-powered predictive maintenance can minimize downtime and enhance efficiency. AI-enabled robots in FSW increase automation, reduce human operator reliance, and minimize safety risks in hazardous environments. However, challenges such as cybersecurity concerns, regulatory hurdles, and ethical implications require careful consideration. Future research should focus on developing advanced AI algorithms, optimizing robot-human collaboration, and exploring new applications beyond traditional materials. The approach offers precision, efficiency, and safety, but necessitates interdisciplinary collaboration, strategic investment, and proactive addressing of technological, ethical, and regulatory challenges.

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Robotic friction stir welding – seam-tracking control, force control and process supervision

Cited by 3 publications

References 19 publications

A Review of Optimization and Measurement Techniques of the Friction Stir Welding (FSW) Process

A Review of Optimization and Measurement Techniques of the Friction Stir Welding (FSW) Process

Friction stir based welding, processing, extrusion and additive manufacturing

Revolutionizing Friction Stir Welding With AI-Integrated Humanoid Robots

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