A New Approach to the Consideration and Analysis of Critical Factors in Robotic Machining

Sánchez, Iván Iglesias; Ares, E.; Gaya, Cristina González; Rosales-Prieto, Víctor Fco.

doi:10.3390/app10248885

Cited by 5 publications

(3 citation statements)

References 38 publications

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“…In a similar way, the authors in [24] used a factorial procedure to characterize the experimental robotic system, predicting the attainable manufacturing tolerances, and allowing the study of the main constraints in the machining of relatively soft materials.…”

Section: Introductionmentioning

confidence: 99%

Behavioural Study of the Force Control Loop Used in a Collaborative Robot for Sanding Materials

et al. 2020

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The rise of collaborative robots urges the consideration of them for different industrial tasks such as sanding. In this context, the purpose of this article is to demonstrate the feasibility of using collaborative robots in processing operations, such as orbital sanding. For the demonstration, the tools and working conditions have been adjusted to the capacity of the robot. Materials with different characteristics have been selected, such as aluminium, steel, brass, wood, and plastic. An inner/outer control loop strategy has been used, complementing the robot’s motion control with an outer force control loop. After carrying out an explanatory design of experiments, it was observed that it is possible to perform the operation in all materials, without destabilising the control, with a mean force error of 0.32%. Compared with industrial robots, collaborative ones can perform the same sanding task with similar results. An important outcome is that unlike what might be thought, an increase in the applied force does not guarantee a better finish. In fact, an increase in the feed rate does not produce significant variation in the finish—less than 0.02 µm; therefore, the process is in a “saturation state” and it is possible to increase the feed rate to increase productivity.

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Section: Introductionmentioning

confidence: 99%

Behavioural Study of the Force Control Loop Used in a Collaborative Robot for Sanding Materials

et al. 2020

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“…Regarding the specific contributions of the Special Issue in the journal Applied Sciences, 14 papers about cutting-edge advances in different fields of manufacturing engineering have been finally published after a rigorous review process. In particular, in: advances and innovations in manufacturing processes [6]; additive manufacturing and 3D printing [7]; manufacturing of new materials [8]; Product Lifecycle Management (PLM) technologies [9,10]; robotics, mechatronics and manufacturing automation [11]; Industry 4.0 [12,13]; design, modeling and simulation in manufacturing engineering [14,15]; and manufacturing engineering and society [16][17][18]; production planning [19]. Figure 2 shows the main topics and their percentages in this journal.…”

mentioning

confidence: 99%

“…The rest of the contributions addressed different topics. In the field of machining, Blanco et al [6] determined the thicknesses/roughness relationship in drilling of Mg-Al-Mg and Mg-Ti-Mg hybrid component plates for aeronautical applications; and Sánchez et al presented a new approach to the consideration and analysis of critical factors in robotic machining [11]. In the field of metal forming, the multi-material extrusion of bimetallic AZ31B-Ti6Al4V billets is analyzed in the work by Fernández et al [8], leading to the definition of favorable conditions in this kind of process.…”

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confidence: 99%

Special Issue of the Manufacturing Engineering Society 2020 (SIMES-2020)

Camacho

Rubio

2021

Applied Sciences

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The Special Issue of the Manufacturing Engineering Society 2020 (SIMES-2020) has been launched as a joint issue of the journals “Materials” and “Applied Sciences”. The 14 contributions published in this Special Issue of Applied Sciences present cutting-edge advances in the field of Manufacturing Engineering focusing on advances and innovations in manufacturing processes; additive manufacturing and 3D printing; manufacturing of new materials; Product Lifecycle Management (PLM) technologies; robotics, mechatronics and manufacturing automation; Industry 4.0; design, modeling and simulation in manufacturing engineering; manufacturing engineering and society; and production planning. Among them, the topic “Manufacturing engineering and society” collected the highest number of contributions (representing 22%), followed by the topics “Product Lifecycle Management (PLM) technologies”, “Industry 4.0”, and “Design, modeling and simulation in manufacturing engineering” (each at 14%). The rest of the topics represent the remaining 35% of the contributions.

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Robotic path compensation training method for optimizing face milling operations based on non-contact CMM techniques

Iglesias

Sánchez

Silva

2024

Robotics and Computer-Integrated Manufacturing

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A New Approach to the Consideration and Analysis of Critical Factors in Robotic Machining

Cited by 5 publications

References 38 publications

Behavioural Study of the Force Control Loop Used in a Collaborative Robot for Sanding Materials

Behavioural Study of the Force Control Loop Used in a Collaborative Robot for Sanding Materials

Special Issue of the Manufacturing Engineering Society 2020 (SIMES-2020)

Robotic path compensation training method for optimizing face milling operations based on non-contact CMM techniques

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