Measurement of elastic properties of materials by the ultrasonic through-transmission technique

El comportamiento mecánico de los materiales elásticos es modelado por medio de dos constantes independientes: el módulo de elasticidad y el coeficiente de Poisson. La medición precisa de estas constantes es indispensable en algunas aplicaciones, como son el control de calidad de elementos mecánicos...

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Autores:: Franco Guzmán, Ediguer Enrique
Meza, Juan M.
Buiochi, Flávio

Tipo de recurso:: Article of journal

Fecha de publicación:: 2011

Institución:: Universidad Autónoma de Occidente

Repositorio:: RED: Repositorio Educativo Digital UAO

Idioma:: spa

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dc.title.eng.fl_str_mv	Measurement of elastic properties of materials by the ultrasonic through-transmission technique
dc.title.alternative.spa.fl_str_mv	Medición de las propiedades elásticas de materiales por el método de transmisión ultrasónica
title	Measurement of elastic properties of materials by the ultrasonic through-transmission technique
spellingShingle	Measurement of elastic properties of materials by the ultrasonic through-transmission technique Ultrasonido Nanoindentación Constantes elásticas Ultrasound Nanoindentation Elastic properties Elastic properties
title_short	Measurement of elastic properties of materials by the ultrasonic through-transmission technique
title_full	Measurement of elastic properties of materials by the ultrasonic through-transmission technique
title_fullStr	Measurement of elastic properties of materials by the ultrasonic through-transmission technique
title_full_unstemmed	Measurement of elastic properties of materials by the ultrasonic through-transmission technique
title_sort	Measurement of elastic properties of materials by the ultrasonic through-transmission technique
dc.creator.fl_str_mv	Franco Guzmán, Ediguer Enrique Meza, Juan M. Buiochi, Flávio
dc.contributor.author.none.fl_str_mv	Franco Guzmán, Ediguer Enrique Meza, Juan M. Buiochi, Flávio
dc.subject.proposal.spa.fl_str_mv	Ultrasonido Nanoindentación Constantes elásticas
topic	Ultrasonido Nanoindentación Constantes elásticas Ultrasound Nanoindentation Elastic properties Elastic properties
dc.subject.proposal.eng.fl_str_mv	Ultrasound Nanoindentation Elastic properties Elastic properties
description	El comportamiento mecánico de los materiales elásticos es modelado por medio de dos constantes independientes: el módulo de elasticidad y el coeficiente de Poisson. La medición precisa de estas constantes es indispensable en algunas aplicaciones, como son el control de calidad de elementos mecánicos y materiales patrones usados en la calibración de algunas máquinas de ensayos mecánicos. Dado que la velocidad de propagación de las ondas acústicas depende de las propiedades elásticas del medio donde se propagan, estas son usadas por la técnica de la transmisión ultrasónica, que es mucho más precisa y repetible que los métodos mecánicos de tracción e indentación. Este trabajo presenta los fundamentos teóricos y experimentales de la técnica de la transmisión ultrasónica, también muestra los resultados de ensayos realizados en varios materiales policristalinos y uno amorfo. Estos muestran excelente repetibilidad y errores numéricos menores al 3% para muestras de alta pureza de cobre y aluminio
publishDate	2011
dc.date.issued.none.fl_str_mv	2011-07
dc.date.accessioned.none.fl_str_mv	2020-03-10T21:41:42Z
dc.date.available.none.fl_str_mv	2020-03-10T21:41:42Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.relation.spa.fl_str_mv	Dyna. 78(168), (julio 1 de 2011); p.p. 58-64
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dc.relation.cites.spa.fl_str_mv	Franco, E. E., Meza, J. M., Buiochi, F. (2011). Measurement of elastic properties of materials by the ultrasonic through-transmission technique. Dyna. 78(168), 58-64. http://red.uao.edu.co//handle/10614/12074
dc.relation.ispartofjournal.spa.fl_str_mv	Dyna
dc.relation.references.none.fl_str_mv	[1] ASHBY M. Materials selection in mechanical design. Buttereorth-Heinemann, second edition, 1996 [2] MEZA J. M., FARIAS C. M., SOUZA R. M. AND CRUZ J. Using the ratio: Maximum load over unload stiffness, Pm/Su2, on the evaluation of machine stiffness and area function of blunt indenters on depth-sensing indentation equipment. Materials Research, Vol. 10 - 4, 437-447, 2007 [3] SIVA S., SHASHIDHARA R., KRISHNAN B., KRISHNAMURTHY C., SHANKAR M., Ultrasonic goniometry immersion techniques for the measurement of elastic moduli. Composite Structures, Vol. 67, 3–17, 2005 [4] STROUD J. R. Elastomechanical properties of bovine veins. Journal of the Mechanical Behavior of Biomedical Materials, Vol. 3- 2, 210-215, 2010 [5] KINO G. S. Acoustic Waves: Devices, Imaging, and Analog Signal Processing. Prentice-Hall, 1986 [6] AULD B. A. Acoustic Fields and Waves in Solids, volume 1. John Wiley & sons, 1990 [7] FRANCO E. E., ANDRADE M. A. B., HIGUTI R. T., ADAMOWSKI J. C. AND BUIOCHI F. Acoustic transmission with mode conversion phenomenon. In Proceedings of the 18th International Congress of Mechanical Engineering - COBEM 2005. ABCM - Associação Brasileira de Engenharia e Ciências Mecânicas [8] WANG H., RITTER T., CAO W. AND SHUNG K. High frequency properties of passive materials for ultrasonic transducers. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, Vol. 48 - 1, 78-84, 2001 [9] R. BRACEWELL. The Fourier Transform and Its Applications. McGraw-Hill, second edition, 1986 [10] PAPOULIS A. Signal Analysis. McGraw Hill, 1977. [11] WU J. Determitation of velocity and attenuation of shear waves using ultrasonic spectroscopy. Journal of the Acoustical Society of America, Vol. 99 -5, 2871-2875, 1996 [12] MEZA J. M., FRANCO E. E., BUIOCHI F., FARIAS C. M., SOUZA R. M., CRUZ J., Módulo de elasticidad en materiales de Ingeniería: Comparación Entre Las Técnicas De Ultrasonido y Nanoindetación., Rev. Metal., 44-1, 52-65, 2008 [13] CES EDUPACK 2010. Granta Design, Cambridge, 2010
dc.rights.spa.fl_str_mv	Derechos Reservados - Universidad Nacional de Colombia, 2011
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dc.format.extent.spa.fl_str_mv	7 páginas
dc.coverage.spatial.none.fl_str_mv	Universidad Autónoma de Occidente. Calle 25 115-85. Km 2 vía Cali-Jamundí
dc.publisher.spa.fl_str_mv	Universidad Nacional de Colombia Sede Medellin
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spelling	Franco Guzmán, Ediguer Enriquevirtual::1804-1Meza, Juan M.c1d699dc6daa22d5e52d826839eab732Buiochi, Fláviob1bdb982d63e34285277106ac50141c5Universidad Autónoma de Occidente. Calle 25 115-85. Km 2 vía Cali-Jamundí2020-03-10T21:41:42Z2020-03-10T21:41:42Z2011-070012-7353http://red.uao.edu.co//handle/10614/12074El comportamiento mecánico de los materiales elásticos es modelado por medio de dos constantes independientes: el módulo de elasticidad y el coeficiente de Poisson. La medición precisa de estas constantes es indispensable en algunas aplicaciones, como son el control de calidad de elementos mecánicos y materiales patrones usados en la calibración de algunas máquinas de ensayos mecánicos. Dado que la velocidad de propagación de las ondas acústicas depende de las propiedades elásticas del medio donde se propagan, estas son usadas por la técnica de la transmisión ultrasónica, que es mucho más precisa y repetible que los métodos mecánicos de tracción e indentación. Este trabajo presenta los fundamentos teóricos y experimentales de la técnica de la transmisión ultrasónica, también muestra los resultados de ensayos realizados en varios materiales policristalinos y uno amorfo. Estos muestran excelente repetibilidad y errores numéricos menores al 3% para muestras de alta pureza de cobre y aluminioThe elastic mechanical behavior of elastic materials is modeled by a pair of independent constants (Young's modulus and Poisson's coefficient). A precise measurement for both constants is necessary in some applications, such as the quality control of mechanical elements and standard materials used for the calibration of some equipment. Ultrasonic techniques have been used because wave velocity depends on the elastic properties of the propagation medium. The ultrasonic test shows better repeatability and accuracy than the tensile and indentation test. In this work, the theoretical and experimental aspects related to the ultrasonic through-transmission technique for the characterization of elastic solids is presented. Furthermore, an amorphous material and some polycrystalline materials were tested. Results have shown an excellent repeatability and numerical errors that are less than 3% in high-purity samplesapplication/pdf7 páginasspaUniversidad Nacional de Colombia Sede MedellinDyna. 78(168), (julio 1 de 2011); p.p. 58-64641685878Franco, E. E., Meza, J. M., Buiochi, F. (2011). Measurement of elastic properties of materials by the ultrasonic through-transmission technique. Dyna. 78(168), 58-64. http://red.uao.edu.co//handle/10614/12074Dyna[1] ASHBY M. Materials selection in mechanical design. Buttereorth-Heinemann, second edition, 1996[2] MEZA J. M., FARIAS C. M., SOUZA R. M. AND CRUZ J. Using the ratio: Maximum load over unload stiffness, Pm/Su2, on the evaluation of machine stiffness and area function of blunt indenters on depth-sensing indentation equipment. Materials Research, Vol. 10 - 4, 437-447, 2007[3] SIVA S., SHASHIDHARA R., KRISHNAN B., KRISHNAMURTHY C., SHANKAR M., Ultrasonic goniometry immersion techniques for the measurement of elastic moduli. Composite Structures, Vol. 67, 3–17, 2005[4] STROUD J. R. Elastomechanical properties of bovine veins. Journal of the Mechanical Behavior of Biomedical Materials, Vol. 3- 2, 210-215, 2010[5] KINO G. S. Acoustic Waves: Devices, Imaging, and Analog Signal Processing. Prentice-Hall, 1986[6] AULD B. A. Acoustic Fields and Waves in Solids, volume 1. John Wiley & sons, 1990[7] FRANCO E. E., ANDRADE M. A. B., HIGUTI R. T., ADAMOWSKI J. C. AND BUIOCHI F. Acoustic transmission with mode conversion phenomenon. In Proceedings of the 18th International Congress of Mechanical Engineering - COBEM 2005. ABCM - Associação Brasileira de Engenharia e Ciências Mecânicas[8] WANG H., RITTER T., CAO W. AND SHUNG K. High frequency properties of passive materials for ultrasonic transducers. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, Vol. 48 - 1, 78-84, 2001[9] R. BRACEWELL. The Fourier Transform and Its Applications. McGraw-Hill, second edition, 1986[10] PAPOULIS A. Signal Analysis. McGraw Hill, 1977.[11] WU J. Determitation of velocity and attenuation of shear waves using ultrasonic spectroscopy. Journal of the Acoustical Society of America, Vol. 99 -5, 2871-2875, 1996[12] MEZA J. M., FRANCO E. E., BUIOCHI F., FARIAS C. M., SOUZA R. M., CRUZ J., Módulo de elasticidad en materiales de Ingeniería: Comparación Entre Las Técnicas De Ultrasonido y Nanoindetación., Rev. Metal., 44-1, 52-65, 2008[13] CES EDUPACK 2010. Granta Design, Cambridge, 2010Derechos Reservados - Universidad Nacional de Colombia, 2011https://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)http://purl.org/coar/access_right/c_abf2Measurement of elastic properties of materials by the ultrasonic through-transmission techniqueMedición de las propiedades elásticas de materiales por el método de transmisión ultrasónicaArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTREFinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85UltrasonidoNanoindentaciónConstantes elásticasUltrasoundNanoindentationElastic propertiesElastic propertiesPublicationff78380a-274b-4973-8760-dee857b38a0dvirtual::1804-1ff78380a-274b-4973-8760-dee857b38a0dvirtual::1804-1https://scholar.google.com/citations?user=4paPIoAAAAAJ&hl=esvirtual::1804-10000-0001-7518-704Xvirtual::1804-1https://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001243730virtual::1804-1CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; 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Measurement of elastic properties of materials by the ultrasonic through-transmission technique

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