Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti

Thin films of tungsten bisulfide (WS2) and tungsten bisulfide nanocomposites doped with Titanium (WS2-Ti) were deposited on silicon substrates, varying the substrate temperature and the potency of the targets by means of co-sputtering magnetron, with in order to obtain different concentrations of Ti...

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Autores:: Borja–Tamayo, R.
Cartagena Marín, C.
Loaiza Ossa, Gabriel Ignacio
Molina Vélez, G.
Puerta Yepes, María Eugenia

Tipo de recurso:

Fecha de publicación:: 2010

Institución:: Universidad EAFIT

Repositorio:: Repositorio EAFIT

Idioma:: spa

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dc.title.eng.fl_str_mv	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti
dc.title.spa.fl_str_mv	Crecimiento, estructura y comportamientode la fricción de recubrimientos duros delnanocompuesto WS2-Ti
title	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti
spellingShingle	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti Super Lubricant Ws2-Ti Raman Disk Pin Supelubricante Ws2-Ti Raman Pin En Disco
title_short	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti
title_full	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti
title_fullStr	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti
title_full_unstemmed	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti
title_sort	Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti
dc.creator.fl_str_mv	Borja–Tamayo, R. Cartagena Marín, C. Loaiza Ossa, Gabriel Ignacio Molina Vélez, G. Puerta Yepes, María Eugenia
dc.contributor.author.spa.fl_str_mv	Borja–Tamayo, R. Cartagena Marín, C. Loaiza Ossa, Gabriel Ignacio Molina Vélez, G. Puerta Yepes, María Eugenia
dc.contributor.affiliation.spa.fl_str_mv	The University of North Texas Universidad del Valle Universidad del Valle Universidad del Valle Universidad Nacional Autónoma de México
dc.subject.keyword.eng.fl_str_mv	Super Lubricant Ws2-Ti Raman Disk Pin
topic	Super Lubricant Ws2-Ti Raman Disk Pin Supelubricante Ws2-Ti Raman Pin En Disco
dc.subject.keyword.spa.fl_str_mv	Supelubricante Ws2-Ti Raman Pin En Disco
description	Thin films of tungsten bisulfide (WS2) and tungsten bisulfide nanocomposites doped with Titanium (WS2-Ti) were deposited on silicon substrates, varying the substrate temperature and the potency of the targets by means of co-sputtering magnetron, with in order to obtain different concentrations of Ti in the nanocomposite. The coatings were analyzed by means of X-ray diffraction (XRD), high resolution scanning electron microscopy (HRSEM / EDS) and high resolution transmission electron microscopy (HRTEM), to observe the change in crystallinity and morphology of the coatings, with respect to the percentage of Ti induced and the change in the substrate temperature. In the co-sputtering process, the inclusion of Ti prevents crystallization of the WS2 by forming dispersed amorphous nanocrystals (1–3 nm). The friction tests carried out by means of a disk pin (POD), at low temperatures, show that the coatings deposited at room temperature and low concentrations of Ti (between 5 and 14% at) have better shelf life than the coatings of WS2 pure, but no significant changes in the coefficient of friction (COF) were observed. The same effect is observed in high temperature friction tests (500 ° C) with major changes in COF. To study the mechanisms of solid lubrication, the samples were prepared by means of focused ion beam (FIB) and analyzed by means of Raman spectroscopy determining the behavior of the deformation on the surface and the formation of tribochemical products in the wear traces . Observing the formation of WO3 on the surface during wear (tribo-oxidation) and its transfer to the counter face of the pair (generation of a third body). Doping the material with Ti, producing a nanocomposite, is a procedure that improves the tribological properties of the material in humid environments and high temperatures, reducing oxidation and improving the life of the pieces. This way of obtaining better working conditions has been poorly studied in detail and a reaction mechanism is presented that allows explaining this phenomenon using innovative analysis techniques such as FIB.
publishDate	2010
dc.date.issued.none.fl_str_mv	2010-06-01
dc.date.available.none.fl_str_mv	2019-11-22T19:01:26Z
dc.date.accessioned.none.fl_str_mv	2019-11-22T19:01:26Z
dc.date.none.fl_str_mv	2010-06-01
dc.type.eng.fl_str_mv	article info:eu-repo/semantics/article publishedVersion info:eu-repo/semantics/publishedVersion
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dc.type.local.spa.fl_str_mv	Artículo
status_str	publishedVersion
dc.identifier.issn.none.fl_str_mv	2256-4314 1794-9165
dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/10784/14496
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url	http://hdl.handle.net/10784/14496
dc.language.iso.spa.fl_str_mv	spa
language	spa
dc.relation.isversionof.none.fl_str_mv	http://publicaciones.eafit.edu.co/index.php/ingciencia/article/view/256
dc.relation.uri.none.fl_str_mv	http://publicaciones.eafit.edu.co/index.php/ingciencia/article/view/256
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dc.rights.local.spa.fl_str_mv	Acceso abierto
rights_invalid_str_mv	Acceso abierto http://purl.org/coar/access_right/c_abf2
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dc.coverage.spatial.eng.fl_str_mv	Medellín de: Lat: 06 15 00 N degrees minutes Lat: 6.2500 decimal degrees Long: 075 36 00 W degrees minutes Long: -75.6000 decimal degrees
dc.publisher.spa.fl_str_mv	Universidad EAFIT
dc.source.none.fl_str_mv	instname:Universidad EAFIT reponame:Repositorio Institucional Universidad EAFIT
dc.source.spa.fl_str_mv	Ingeniería y Ciencia; Vol 6, No 11 (2010)
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spelling	Medellín de: Lat: 06 15 00 N degrees minutes Lat: 6.2500 decimal degrees Long: 075 36 00 W degrees minutes Long: -75.6000 decimal degrees2010-06-012019-11-22T19:01:26Z2010-06-012019-11-22T19:01:26Z2256-43141794-9165http://hdl.handle.net/10784/14496Thin films of tungsten bisulfide (WS2) and tungsten bisulfide nanocomposites doped with Titanium (WS2-Ti) were deposited on silicon substrates, varying the substrate temperature and the potency of the targets by means of co-sputtering magnetron, with in order to obtain different concentrations of Ti in the nanocomposite. The coatings were analyzed by means of X-ray diffraction (XRD), high resolution scanning electron microscopy (HRSEM / EDS) and high resolution transmission electron microscopy (HRTEM), to observe the change in crystallinity and morphology of the coatings, with respect to the percentage of Ti induced and the change in the substrate temperature. In the co-sputtering process, the inclusion of Ti prevents crystallization of the WS2 by forming dispersed amorphous nanocrystals (1–3 nm). The friction tests carried out by means of a disk pin (POD), at low temperatures, show that the coatings deposited at room temperature and low concentrations of Ti (between 5 and 14% at) have better shelf life than the coatings of WS2 pure, but no significant changes in the coefficient of friction (COF) were observed. The same effect is observed in high temperature friction tests (500 ° C) with major changes in COF. To study the mechanisms of solid lubrication, the samples were prepared by means of focused ion beam (FIB) and analyzed by means of Raman spectroscopy determining the behavior of the deformation on the surface and the formation of tribochemical products in the wear traces . Observing the formation of WO3 on the surface during wear (tribo-oxidation) and its transfer to the counter face of the pair (generation of a third body). Doping the material with Ti, producing a nanocomposite, is a procedure that improves the tribological properties of the material in humid environments and high temperatures, reducing oxidation and improving the life of the pieces. This way of obtaining better working conditions has been poorly studied in detail and a reaction mechanism is presented that allows explaining this phenomenon using innovative analysis techniques such as FIB.Se depositaron películas delgadas de bisulfuro de tungsteno (WS2) y nanocompuestos de bisulfuro de tungsteno dopados con Titanio (WS2-Ti) sobre sustratos de silicio, variando la temperatura del substrato y la potencia de los blancos por medio de magnetrón co–sputtering, con el fin de obtener diferentes concentraciones de Ti en el nanocompuesto. Los recubrimientos fueron analizados por medio de difracción de rayos X (XRD), microscopía electrónica de barrido de alta resolución (HRSEM/EDS) y microscopía electrónica de transmisión de alta resolución (HRTEM), para observar el cambio en la cristalinidad y la morfología de los recubrimientos, con respecto al porcentaje de Ti inducido y el cambio en la temperatura del substrato. En el proceso co–sputtering, la inclusión de Ti previene la cristalización del WS2 formando nanocristales amorfos dispersos (1–3 nm). Las pruebas de fricción realizadas por medio de pin en disco (POD), a bajas temperaturas, muestran que los recubrimientos depositados a temperatura ambiente y bajas concentraciones de Ti (entre 5 y 14%at) poseen mejores tiempos de vida útil que los recubrimientos de WS2 puros, pero no se observaron cambios significativos en el coeficiente de fricción (COF). El mismo efecto se observa en las pruebas de fricción a alta temperatura (500◦C) con cambios mayores en el COF. Para estudiar los mecanismos de lubricación sólida, se prepararon las muestras por medio de haz de iones focalizado (FIB) y se analizaron por medio de espectroscopia Raman determinando el comportamiento de la deformación en la superficie y la formación de productos triboquímicos en las huellas de desgaste. Observando la formación de WO3 en la superficie durante el desgaste (tribo–oxidación) y la transferencia del mismo a la contracara del par (generación de un tercer cuerpo). Dopar el material con Ti, produciendo un nanocompuesto, es un procedimiento que mejora las propiedades tribológicas del material en ambientes húmedos y altas temperaturas, reduciendo la oxidación y mejorando el tiempo de vida de las piezas. Esta forma de obtener mejores condiciones de trabajo ha sido poco estudiada en detalle y se presenta un mecanismo de reacción que permite explicar dicho fenómeno utilizando técnicas novedosas de análisis como FIB.application/pdfspaUniversidad EAFIThttp://publicaciones.eafit.edu.co/index.php/ingciencia/article/view/256http://publicaciones.eafit.edu.co/index.php/ingciencia/article/view/256Copyright (c) 2010 Thomas W. Scharf, Federico Sequeda Osorio, Juan Manuel González Carmona, Alexander Ruden, Johan RestrepoAcceso abiertohttp://purl.org/coar/access_right/c_abf2instname:Universidad EAFITreponame:Repositorio Institucional Universidad EAFITIngeniería y Ciencia; Vol 6, No 11 (2010)Growth, structure and friction behavior of the nanocomposite hard coatings WS2-TiCrecimiento, estructura y comportamientode la fricción de recubrimientos duros delnanocompuesto WS2-Tiarticleinfo:eu-repo/semantics/articlepublishedVersioninfo:eu-repo/semantics/publishedVersionArtículohttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Super LubricantWs2-TiRamanDisk PinSupelubricanteWs2-TiRamanPin En DiscoBorja–Tamayo, R.Cartagena Marín, C.Loaiza Ossa, Gabriel IgnacioMolina Vélez, G.Puerta Yepes, María EugeniaThe University of North TexasUniversidad del ValleUniversidad del ValleUniversidad del ValleUniversidad Nacional Autónoma de MéxicoIngeniería y Ciencia611159176ing.cienc.THUMBNAILminaitura-ig_Mesa de trabajo 1.jpgminaitura-ig_Mesa de trabajo 1.jpgimage/jpeg265796https://repository.eafit.edu.co/bitstreams/20f3061d-c5b5-4d65-b411-2054a6c304de/downloadda9b21a5c7e00c7f1127cef8e97035e0MD51ORIGINAL10.pdf10.pdfTexto completo PDFapplication/pdf375927https://repository.eafit.edu.co/bitstreams/b256586a-cbb0-41b1-99fa-be60d7845539/download2ef91f357026247c014036681e07332bMD52articulo.htmlarticulo.htmlTexto completo HTMLtext/html373https://repository.eafit.edu.co/bitstreams/38e298fd-6751-4dcd-8a6c-fa586c42be0c/download2b1a5b4ddd5cc8c505a08d0e14d109a6MD5310784/14496oai:repository.eafit.edu.co:10784/144962020-03-02 22:29:58.943open.accesshttps://repository.eafit.edu.coRepositorio Institucional Universidad EAFITrepositorio@eafit.edu.co

Growth, structure and friction behavior of the nanocomposite hard coatings WS2-Ti

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