Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC

In this document, it was proposed to develop a prototype of a low-cost measurement system for the detection of vibrations associated with chatter in CNC milling processes. An Arduino microcontroller is used as the acquisition system and an MPU6050 accelerometer for the instrumentation of the work, o...

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Autores:: Rodríguez Castillo, Melany Lorena
Ariza Hernández, Edwin Alberto

Tipo de recurso:: Trabajo de grado de pregrado

Fecha de publicación:: 2022

Institución:: Universidad Antonio Nariño

Repositorio:: Repositorio UAN

Idioma:: spa

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dc.title.es_ES.fl_str_mv	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC
title	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC
spellingShingle	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC CNC, Chatter, Modelo dinámico, sistema de medición, Fresadora CNC, Chatter, Dynamic model, measuring system, Milling machine.
title_short	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC
title_full	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC
title_fullStr	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC
title_full_unstemmed	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC
title_sort	Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC
dc.creator.fl_str_mv	Rodríguez Castillo, Melany Lorena Ariza Hernández, Edwin Alberto
dc.contributor.author.spa.fl_str_mv	Rodríguez Castillo, Melany Lorena Ariza Hernández, Edwin Alberto
dc.subject.es_ES.fl_str_mv	CNC, Chatter, Modelo dinámico, sistema de medición, Fresadora
topic	CNC, Chatter, Modelo dinámico, sistema de medición, Fresadora CNC, Chatter, Dynamic model, measuring system, Milling machine.
dc.subject.keyword.es_ES.fl_str_mv	CNC, Chatter, Dynamic model, measuring system, Milling machine.
description	In this document, it was proposed to develop a prototype of a low-cost measurement system for the detection of vibrations associated with chatter in CNC milling processes. An Arduino microcontroller is used as the acquisition system and an MPU6050 accelerometer for the instrumentation of the work, obtaining experimentally the dynamic behavior of the system, from this the model is validated by means of analyzes carried out of the fast Fourier transform and the lobe diagrams to determine stable and unstable points in which the chatter can exist during the milling process
publishDate	2022
dc.date.accessioned.none.fl_str_mv	2022-11-15T16:31:53Z
dc.date.available.none.fl_str_mv	2022-11-15T16:31:53Z
dc.date.issued.spa.fl_str_mv	2022-06-01
dc.type.spa.fl_str_mv	Trabajo de grado (Pregrado y/o Especialización)
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dc.identifier.uri.none.fl_str_mv	http://repositorio.uan.edu.co/handle/123456789/7249
dc.identifier.bibliographicCitation.spa.fl_str_mv	[1] S. S. Rao, Vibration of continuous systems. Wiley Online Library, 2007, vol. 464. [2] G. Quintana and J. Ciurana, “Chatter in machining processes: A review,” International Journal of Machine Tools and Manufacture, vol. 51, no. 5, pp. 363–376, 2011. [3] Y. Caixu, G. Haining, L. Xianli, S. Y. Liang, and W. Lihui, “A review of chatter vibration research in milling,” Chinese Journal of Aeronautics, vol. 32, no. 2, pp. 215–242, 2019. [4] Y. Altintas and M. Weck, “Chatter stability of metal cutting and grinding,” CIRP Annals - Manufacturing Technology, pp. 1–2, 2004. [5] Y. Petrakov, “Chatter suppression technologies for metal cutting,” Mechanics and Advanced Technologies, pp. 51–60, 2019. [6] Y. Altintaş and E. Budak, “Analytical prediction of stability lobes in milling,” CIRP annals, vol. 44, no. 1, pp. 357–362, 1995. [7] S. Tobias and W. Fishwick, “Theory of regenerative machine tool chatter,” The engineer, vol. 205, no. 7, pp. 199–203, 1958. [8] E. Mizrachi, S. Basovich, and S. Arogeti, “Robust time-delayed h synthesis for active control of chatter in internal turning,” International Journal of Machine Tools and Manufacture, vol. 158, p. 103612, 2020. [9] Y. Yang, J. Munoa, and Y. Altintas, “Optimization of multiple tuned mass dampers to suppress machine tool chatter,” International Journal of Machine Tools and Manufacture, vol. 50, no. 9, pp. 834–842, 2010. [10] D. Li, H. Cao, and X. Chen, “Fuzzy control of milling chatter with piezoelectric actuators embedded to the tool holder,” Mechanical Systems and Signal Processing, vol. 148, p. 107190, 2021.
dc.identifier.instname.spa.fl_str_mv	instname:Universidad Antonio Nariño
dc.identifier.reponame.spa.fl_str_mv	reponame:Repositorio Institucional UAN
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url	http://repositorio.uan.edu.co/handle/123456789/7249
identifier_str_mv	[1] S. S. Rao, Vibration of continuous systems. Wiley Online Library, 2007, vol. 464. [2] G. Quintana and J. Ciurana, “Chatter in machining processes: A review,” International Journal of Machine Tools and Manufacture, vol. 51, no. 5, pp. 363–376, 2011. [3] Y. Caixu, G. Haining, L. Xianli, S. Y. Liang, and W. Lihui, “A review of chatter vibration research in milling,” Chinese Journal of Aeronautics, vol. 32, no. 2, pp. 215–242, 2019. [4] Y. Altintas and M. Weck, “Chatter stability of metal cutting and grinding,” CIRP Annals - Manufacturing Technology, pp. 1–2, 2004. [5] Y. Petrakov, “Chatter suppression technologies for metal cutting,” Mechanics and Advanced Technologies, pp. 51–60, 2019. [6] Y. Altintaş and E. Budak, “Analytical prediction of stability lobes in milling,” CIRP annals, vol. 44, no. 1, pp. 357–362, 1995. [7] S. Tobias and W. Fishwick, “Theory of regenerative machine tool chatter,” The engineer, vol. 205, no. 7, pp. 199–203, 1958. [8] E. Mizrachi, S. Basovich, and S. Arogeti, “Robust time-delayed h synthesis for active control of chatter in internal turning,” International Journal of Machine Tools and Manufacture, vol. 158, p. 103612, 2020. [9] Y. Yang, J. Munoa, and Y. Altintas, “Optimization of multiple tuned mass dampers to suppress machine tool chatter,” International Journal of Machine Tools and Manufacture, vol. 50, no. 9, pp. 834–842, 2010. [10] D. Li, H. Cao, and X. Chen, “Fuzzy control of milling chatter with piezoelectric actuators embedded to the tool holder,” Mechanical Systems and Signal Processing, vol. 148, p. 107190, 2021. instname:Universidad Antonio Nariño reponame:Repositorio Institucional UAN repourl:https://repositorio.uan.edu.co/
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dc.coverage.spatial.spa.fl_str_mv	Colombia(Bogotá,Dc)
dc.publisher.spa.fl_str_mv	Universidad Antonio Nariño
dc.publisher.program.spa.fl_str_mv	Ingeniería Mecatrónica
dc.publisher.faculty.spa.fl_str_mv	Facultad de Ingeniería Mecánica, Electrónica y Biomédica
dc.publisher.campus.spa.fl_str_mv	Bogotá - Sur
institution	Universidad Antonio Nariño
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spelling	Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)Acceso abiertohttps://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Rodríguez Castillo, Melany LorenaAriza Hernández, Edwin Alberto1148181382511481715646Colombia(Bogotá,Dc)2022-11-15T16:31:53Z2022-11-15T16:31:53Z2022-06-01http://repositorio.uan.edu.co/handle/123456789/7249[1] S. S. Rao, Vibration of continuous systems. Wiley Online Library, 2007, vol. 464.[2] G. Quintana and J. Ciurana, “Chatter in machining processes: A review,” International Journal of Machine Tools and Manufacture, vol. 51, no. 5, pp. 363–376, 2011.[3] Y. Caixu, G. Haining, L. Xianli, S. Y. Liang, and W. Lihui, “A review of chatter vibration research in milling,” Chinese Journal of Aeronautics, vol. 32, no. 2, pp. 215–242, 2019.[4] Y. Altintas and M. Weck, “Chatter stability of metal cutting and grinding,” CIRP Annals - Manufacturing Technology, pp. 1–2, 2004.[5] Y. Petrakov, “Chatter suppression technologies for metal cutting,” Mechanics and Advanced Technologies, pp. 51–60, 2019.[6] Y. Altintaş and E. Budak, “Analytical prediction of stability lobes in milling,” CIRP annals, vol. 44, no. 1, pp. 357–362, 1995.[7] S. Tobias and W. Fishwick, “Theory of regenerative machine tool chatter,” The engineer, vol. 205, no. 7, pp. 199–203, 1958.[8] E. Mizrachi, S. Basovich, and S. Arogeti, “Robust time-delayed h synthesis for active control of chatter in internal turning,” International Journal of Machine Tools and Manufacture, vol. 158, p. 103612, 2020.[9] Y. Yang, J. Munoa, and Y. Altintas, “Optimization of multiple tuned mass dampers to suppress machine tool chatter,” International Journal of Machine Tools and Manufacture, vol. 50, no. 9, pp. 834–842, 2010.[10] D. Li, H. Cao, and X. Chen, “Fuzzy control of milling chatter with piezoelectric actuators embedded to the tool holder,” Mechanical Systems and Signal Processing, vol. 148, p. 107190, 2021.instname:Universidad Antonio Nariñoreponame:Repositorio Institucional UANrepourl:https://repositorio.uan.edu.co/In this document, it was proposed to develop a prototype of a low-cost measurement system for the detection of vibrations associated with chatter in CNC milling processes. An Arduino microcontroller is used as the acquisition system and an MPU6050 accelerometer for the instrumentation of the work, obtaining experimentally the dynamic behavior of the system, from this the model is validated by means of analyzes carried out of the fast Fourier transform and the lobe diagrams to determine stable and unstable points in which the chatter can exist during the milling processEn el presente documento se planteó desarrollar un prototipo de sistema de medición de bajo costo para la detección de vibraciones asociadas al chatter en procesos de fresado CNC. Se utiliza un microcontrolador Arduino como sistema de adquisición y un acelerómetro MPU6050 para la instrumentación del trabajo, obteniendo de manera experimental el comportamiento dinámico del sistema, a partir de este se valida el modelo por medio de análisis realizados de la transformada rápida de Fourier y los diagramas de lóbulos para determinar puntos estables e inestables en los cuales pueda existir el chatter durante el proceso de fresado.Ingeniero(a) Mecatrónico(a)PregradoPresencialInvestigaciónspaUniversidad Antonio NariñoIngeniería MecatrónicaFacultad de Ingeniería Mecánica, Electrónica y BiomédicaBogotá - SurCNC,Chatter,Modelo dinámico,sistema de medición,FresadoraCNC,Chatter,Dynamic model,measuring system,Milling machine.Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNCTrabajo de grado (Pregrado y/o Especialización)http://purl.org/coar/resource_type/c_7a1fhttp://purl.org/coar/version/c_970fb48d4fbd8a85GeneralORIGINAL2022_MelanyLorenaArizaRodriguez2022_MelanyLorenaArizaRodriguezTrabajo de gradoapplication/pdf24396647https://repositorio.uan.edu.co/bitstreams/bbf84808-beb8-4513-95e5-90dc97f93879/download276f869e0043d6fb79b1bc94c1604ce8MD532022_MelanyLorenaArizaRodriguez_Autorización2022_MelanyLorenaArizaRodriguez_AutorizaciónAutorización de autoresapplication/pdf987187https://repositorio.uan.edu.co/bitstreams/4907a823-3877-41cc-ac10-e3ba3ff7f3c5/download4449fd7ffa82b9190898e63a485ef7d1MD522022_MelanyLorenaArizaRodriguez_Acta2022_MelanyLorenaArizaRodriguez_ActaActa de sustentaciónapplication/pdf243842https://repositorio.uan.edu.co/bitstreams/c8ced38d-5e3e-4e83-a482-8382f6c19313/downloade4aae43c34530e61d07b5470d0451aebMD51CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-8811https://repositorio.uan.edu.co/bitstreams/ca5ec8c8-c8bb-406d-b08d-2a9daa516a89/download9868ccc48a14c8d591352b6eaf7f6239MD54123456789/7249oai:repositorio.uan.edu.co:123456789/72492024-10-09 22:54:08.412https://creativecommons.org/licenses/by-nc-nd/4.0/Acceso abiertoopen.accesshttps://repositorio.uan.edu.coRepositorio Institucional UANalertas.repositorio@uan.edu.co

Prototipo de sistema de medición de bajo costo para la medición de chatter en procesos de fresado CNC

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