Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys

The present article arises from the study of the mechanical behavior of a body composed entirely of iron oxide and iron oxide and chip alloys through the experimental determination of resistance to impact by dynamic action through the application of loads of impact provided by a Charpy pendulum. The...

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Autores:: Santiago Méndez, Habid
De La Cruz Consuegra, William
Molina Mesino, Enois
Rojas Millán, Rafael Humberto
Orozco Aguinaga, Carlos Alberto
Hinojosa Rivera, Moisés

Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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dc.title.spa.fl_str_mv	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys
title	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys
spellingShingle	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys Resistance Impact Iron oxide Impact energy
title_short	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys
title_full	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys
title_fullStr	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys
title_full_unstemmed	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys
title_sort	Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys
dc.creator.fl_str_mv	Santiago Méndez, Habid De La Cruz Consuegra, William Molina Mesino, Enois Rojas Millán, Rafael Humberto Orozco Aguinaga, Carlos Alberto Hinojosa Rivera, Moisés
dc.contributor.author.spa.fl_str_mv	Santiago Méndez, Habid De La Cruz Consuegra, William Molina Mesino, Enois Rojas Millán, Rafael Humberto Orozco Aguinaga, Carlos Alberto Hinojosa Rivera, Moisés
dc.subject.spa.fl_str_mv	Resistance Impact Iron oxide Impact energy
topic	Resistance Impact Iron oxide Impact energy
description	The present article arises from the study of the mechanical behavior of a body composed entirely of iron oxide and iron oxide and chip alloys through the experimental determination of resistance to impact by dynamic action through the application of loads of impact provided by a Charpy pendulum. The resistive evaluation will be useful for the development of new engineering materials, either to design structures or to design and manufacture machine parts. The study also evaluates the materials’ level of absorption of impact energy, or their capacity to partially absorb the energy from the impact loads. Possible applications include the design of new materials for use in the automotive industry, for example for collision protection systems for vehicles, among others. The tested materials are derived from metallurgical processes that involve various stages of iron smelting, from melting and casting of the metal until obtaining the test specimens.
publishDate	2020
dc.date.issued.none.fl_str_mv	2020
dc.date.accessioned.none.fl_str_mv	2021-04-08T21:32:07Z
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dc.relation.references.spa.fl_str_mv	Goicolea, J. M. (2000). Estructuras sometidas a impacto. Estructuras sometidas a acciones dinámicas, 535-567. Cassano, A. M. (2009). Análisis de estructuras bajo acciones dinámicas. Editorial Universitaria de la Universidad Tecnológica Nacional. Heidis Cano, Delphine Neff, Manuel Morcillo, Philippe Dillmann, Iván Diaz, Daniel de la Fuente, Characterization of corrosion products formed on Ni 2.4wt%–Cu 0.5wt%–Cr 0.5wt% weathering steel exposed in marine atmospheres, Corrosion Science, Volume 87, 2014, Pages 438-451, ISSN 0010- 938X, http://www.sciencedirect.com/science/article/pii/S0010938X14003278 Abril, E. R. (1956). Metalurgia técnica y fundición. Domínguez, E. J., & Ferrer, J. (2017). Metales y aleaciones (Mecanizado básico). Editex. Shackelford, J. F. (1995). Ciencia de materiales para ingenieros. Prentice Hall Hispanoamericana. Ortega, Y. (2006). Prueba de impacto: ensayo Charpy. Revista mexicana de física E, 52(1), 51-57. Sitio oficial TERCO. Disponible en línea: https://www.tercosweden.com Garrido-Martínez, M. (2019). Diseño de un péndulo de impacto tipo Charpy. Fuente. Lab. Resistencia de Materiales. Universidad De La Costa. Péndulo de Charpy. Oscilación antes y después del impacto. Fuente. Recuperado de: https://www.researchgate.net/profile/Yalile_Salom/publication/328051292/figure/fig2/AS:677694115 176462@1538586276750/Fuente-Mouton-charpysvg_Q320.jpg Bowie, L. M. W., Canabal, K. P., Ruiz, M. C., Wilches, J. E. J., Ibarra, S. S., & Campo, R. Ensayo de tenacidad o impacto (prueba charpy). Ospino, M. J. Z., Torres, R. V., Monterrosa, M. J. A., Montes, E. T., & Padilla, B. H. (2018). Ensayo de impacto de Charpy. ASKELAND, Donal R. (2004), “Ciencia e Ingeniería de los materiales”, Thomson Editores. México, Cuarta edición. Jaimes, N., Mendoza, D., Sterlacci, G., Gómez, C., & Troyani, N. (2005). Factor de concentración de esfuerzos para placas cortas con entallas en u de un solo lado sometidas a tensión. Saber. Revista Multidisciplinaria del Consejo de Investigación de la Universidad de Oriente, 17(1), 29-33. Morcillo, M., Díaz, I., Cano, H., Chico, B., de la Fuente, D. (2019). Atmospheric corrosion of weathering steels. Overview for engineers. Part II: Testing, inspection, maintenance, Construction and Building Materials, 222, pp. 750-765. Cited 1 time. https://www.scopus.com/inward/record.uri?eid=2- s2.0- 85068078527&doi=10.1016%2fj.conbuildmat.2019.06.155&partnerID=40&md5=50de5bef5aede08d7 205614984bd49a1
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spelling	Santiago Méndez, Habid3093347b37680f5337b0c4c4dead2d2eDe La Cruz Consuegra, Williameb3d3b84d4e070c99440c4903d0d81e1Molina Mesino, Enois616212f2e7c2400e1f234b476e9de4baRojas Millán, Rafael Humberto7fb73bb8a2255f7b798b261b5e5548b2Orozco Aguinaga, Carlos Albertobfeb029a69ee664ffee7e7f255dafe59Hinojosa Rivera, Moisésc255ab344901db985c83b2767e2490a12021-04-08T21:32:07Z2021-04-08T21:32:07Z2020https://hdl.handle.net/11323/8113https://doi.org/10.1088/1757-899X/872/1/012042Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/The present article arises from the study of the mechanical behavior of a body composed entirely of iron oxide and iron oxide and chip alloys through the experimental determination of resistance to impact by dynamic action through the application of loads of impact provided by a Charpy pendulum. The resistive evaluation will be useful for the development of new engineering materials, either to design structures or to design and manufacture machine parts. The study also evaluates the materials’ level of absorption of impact energy, or their capacity to partially absorb the energy from the impact loads. Possible applications include the design of new materials for use in the automotive industry, for example for collision protection systems for vehicles, among others. The tested materials are derived from metallurgical processes that involve various stages of iron smelting, from melting and casting of the metal until obtaining the test specimens.application/pdfengIOP PublishingCC0 1.0 Universalhttp://creativecommons.org/publicdomain/zero/1.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2IOP Conference Series: Materials Science and Engineering, Volume 872https://iopscience.iop.org/article/10.1088/1757-899X/872/1/012042/metaResistanceImpactIron oxideImpact energyExperimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloysArtículo 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/ARTinfo:eu-repo/semantics/acceptedVersionGoicolea, J. M. (2000). Estructuras sometidas a impacto. Estructuras sometidas a acciones dinámicas, 535-567.Cassano, A. M. (2009). Análisis de estructuras bajo acciones dinámicas. Editorial Universitaria de la Universidad Tecnológica Nacional.Heidis Cano, Delphine Neff, Manuel Morcillo, Philippe Dillmann, Iván Diaz, Daniel de la Fuente, Characterization of corrosion products formed on Ni 2.4wt%–Cu 0.5wt%–Cr 0.5wt% weathering steel exposed in marine atmospheres, Corrosion Science, Volume 87, 2014, Pages 438-451, ISSN 0010- 938X, http://www.sciencedirect.com/science/article/pii/S0010938X14003278Abril, E. R. (1956). Metalurgia técnica y fundición.Domínguez, E. J., & Ferrer, J. (2017). Metales y aleaciones (Mecanizado básico). Editex.Shackelford, J. F. (1995). Ciencia de materiales para ingenieros. Prentice Hall Hispanoamericana.Ortega, Y. (2006). Prueba de impacto: ensayo Charpy. Revista mexicana de física E, 52(1), 51-57.Sitio oficial TERCO. Disponible en línea: https://www.tercosweden.comGarrido-Martínez, M. (2019). Diseño de un péndulo de impacto tipo Charpy.Fuente. Lab. Resistencia de Materiales. Universidad De La Costa.Péndulo de Charpy. Oscilación antes y después del impacto. Fuente. Recuperado de: https://www.researchgate.net/profile/Yalile_Salom/publication/328051292/figure/fig2/AS:677694115 176462@1538586276750/Fuente-Mouton-charpysvg_Q320.jpgBowie, L. M. W., Canabal, K. P., Ruiz, M. C., Wilches, J. E. J., Ibarra, S. S., & Campo, R. Ensayo de tenacidad o impacto (prueba charpy).Ospino, M. J. Z., Torres, R. V., Monterrosa, M. J. A., Montes, E. T., & Padilla, B. H. (2018). Ensayo de impacto de Charpy.ASKELAND, Donal R. (2004), “Ciencia e Ingeniería de los materiales”, Thomson Editores. México, Cuarta edición.Jaimes, N., Mendoza, D., Sterlacci, G., Gómez, C., & Troyani, N. (2005). Factor de concentración de esfuerzos para placas cortas con entallas en u de un solo lado sometidas a tensión. Saber. Revista Multidisciplinaria del Consejo de Investigación de la Universidad de Oriente, 17(1), 29-33.Morcillo, M., Díaz, I., Cano, H., Chico, B., de la Fuente, D. (2019). Atmospheric corrosion of weathering steels. Overview for engineers. Part II: Testing, inspection, maintenance, Construction and Building Materials, 222, pp. 750-765. Cited 1 time. https://www.scopus.com/inward/record.uri?eid=2- s2.0- 85068078527&doi=10.1016%2fj.conbuildmat.2019.06.155&partnerID=40&md5=50de5bef5aede08d7 205614984bd49a1CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-8701https://repositorio.cuc.edu.co/bitstream/11323/8113/2/license_rdf42fd4ad1e89814f5e4a476b409eb708cMD52open accessLICENSElicense.txtlicense.txttext/plain; charset=utf-83196https://repositorio.cuc.edu.co/bitstream/11323/8113/3/license.txte30e9215131d99561d40d6b0abbe9badMD53open 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Experimental determination of resistance to penetration by dynamic action of a body made entirely of iron oxide and iron oxide and chip alloys

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