Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy

Detalhes bibliográficos
Autor(a) principal: Freislebem, Márcia
Data de Publicação: 2014
Outros Autores: Menezes, Caren Machado, Bohn, Felipe, Costi, Fernanda Buratti, Ferreira, Patrícia A., Aguzzoli, Cesar, Baumvol, Israel Jacob Rabin, Alvarez, Fernando, Figueroa, Carlos Alejandro
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Repositório Institucional da UFRGS
Texto Completo: http://hdl.handle.net/10183/142395
Resumo: Friction is a ubiquitous phenomenon in everyday activities spanning from vehicles where efficient brakes are mandatory up to mechanical devices where its minimum effects are pursued for energy efficiency issues. Recently, theoretical models succeed correlating the friction behavior with energy transference via phonons between sliding surfaces. Therefore, considering that the energy losses by friction are prompted through phonons, the chemical surface structure between sliding surfaces is very important to determine the friction phenomenon. In this work, we address the issue of friction between a conical diamond tip sliding on different functionalized flat steel surfaces by focusing the influence of the chemical bonds in the outermost layers on the sliding resistance. This geometry allows probing the coupling of the sharp tip with terminator species on the top and underneath material surface at in-depth friction measurements from 20 to 200 nm. Experimentally, the friction coefficient decreases when nitrogen atoms are substituted for oxygen in the iron network. This effect is interpreted as due to energy losses through phonons whilst lower vibrational frequency excitation modes imply lower friction coefficients and a more accurate adjustment is obtained when a theoretical model with longitudinal adsorbate vibration is used.
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spelling Freislebem, MárciaMenezes, Caren MachadoBohn, FelipeCosti, Fernanda BurattiFerreira, Patrícia A.Aguzzoli, CesarBaumvol, Israel Jacob RabinAlvarez, FernandoFigueroa, Carlos Alejandro2016-06-09T02:08:35Z20140003-6951http://hdl.handle.net/10183/142395000964601Friction is a ubiquitous phenomenon in everyday activities spanning from vehicles where efficient brakes are mandatory up to mechanical devices where its minimum effects are pursued for energy efficiency issues. Recently, theoretical models succeed correlating the friction behavior with energy transference via phonons between sliding surfaces. Therefore, considering that the energy losses by friction are prompted through phonons, the chemical surface structure between sliding surfaces is very important to determine the friction phenomenon. In this work, we address the issue of friction between a conical diamond tip sliding on different functionalized flat steel surfaces by focusing the influence of the chemical bonds in the outermost layers on the sliding resistance. This geometry allows probing the coupling of the sharp tip with terminator species on the top and underneath material surface at in-depth friction measurements from 20 to 200 nm. Experimentally, the friction coefficient decreases when nitrogen atoms are substituted for oxygen in the iron network. This effect is interpreted as due to energy losses through phonons whilst lower vibrational frequency excitation modes imply lower friction coefficients and a more accurate adjustment is obtained when a theoretical model with longitudinal adsorbate vibration is used.application/pdfengApplied physics letters. New York. Vol. 105, no. 11 (Sept. 2014), 111603, 4 p.Processamento de materiais com plasmaFreiosAtrito cinéticoEndurecimento de superfíciesVibracoesInfluence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloyEstrangeiroinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFRGSinstname:Universidade Federal do Rio Grande do Sul (UFRGS)instacron:UFRGSORIGINAL000964601.pdf000964601.pdfTexto completo (inglês)application/pdf905613http://www.lume.ufrgs.br/bitstream/10183/142395/1/000964601.pdf267d2fe371a0a255486044800546c39fMD51TEXT000964601.pdf.txt000964601.pdf.txtExtracted Texttext/plain22701http://www.lume.ufrgs.br/bitstream/10183/142395/2/000964601.pdf.txtce29bcb5995ec4f6f5000a3df1e912e8MD52THUMBNAIL000964601.pdf.jpg000964601.pdf.jpgGenerated Thumbnailimage/jpeg2206http://www.lume.ufrgs.br/bitstream/10183/142395/3/000964601.pdf.jpg41883afdb0f63eefd272e4da2e58fd88MD5310183/1423952021-09-18 04:41:05.934533oai:www.lume.ufrgs.br:10183/142395Repositório de PublicaçõesPUBhttps://lume.ufrgs.br/oai/requestopendoar:2021-09-18T07:41:05Repositório Institucional da UFRGS - Universidade Federal do Rio Grande do Sul (UFRGS)false
dc.title.pt_BR.fl_str_mv Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
title Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
spellingShingle Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
Freislebem, Márcia
Processamento de materiais com plasma
Freios
Atrito cinético
Endurecimento de superfícies
Vibracoes
title_short Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
title_full Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
title_fullStr Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
title_full_unstemmed Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
title_sort Influence of the chemical surface structure on the nanoscale friction in plasma nitrided and post-oxidized ferrous alloy
author Freislebem, Márcia
author_facet Freislebem, Márcia
Menezes, Caren Machado
Bohn, Felipe
Costi, Fernanda Buratti
Ferreira, Patrícia A.
Aguzzoli, Cesar
Baumvol, Israel Jacob Rabin
Alvarez, Fernando
Figueroa, Carlos Alejandro
author_role author
author2 Menezes, Caren Machado
Bohn, Felipe
Costi, Fernanda Buratti
Ferreira, Patrícia A.
Aguzzoli, Cesar
Baumvol, Israel Jacob Rabin
Alvarez, Fernando
Figueroa, Carlos Alejandro
author2_role author
author
author
author
author
author
author
author
dc.contributor.author.fl_str_mv Freislebem, Márcia
Menezes, Caren Machado
Bohn, Felipe
Costi, Fernanda Buratti
Ferreira, Patrícia A.
Aguzzoli, Cesar
Baumvol, Israel Jacob Rabin
Alvarez, Fernando
Figueroa, Carlos Alejandro
dc.subject.por.fl_str_mv Processamento de materiais com plasma
Freios
Atrito cinético
Endurecimento de superfícies
Vibracoes
topic Processamento de materiais com plasma
Freios
Atrito cinético
Endurecimento de superfícies
Vibracoes
description Friction is a ubiquitous phenomenon in everyday activities spanning from vehicles where efficient brakes are mandatory up to mechanical devices where its minimum effects are pursued for energy efficiency issues. Recently, theoretical models succeed correlating the friction behavior with energy transference via phonons between sliding surfaces. Therefore, considering that the energy losses by friction are prompted through phonons, the chemical surface structure between sliding surfaces is very important to determine the friction phenomenon. In this work, we address the issue of friction between a conical diamond tip sliding on different functionalized flat steel surfaces by focusing the influence of the chemical bonds in the outermost layers on the sliding resistance. This geometry allows probing the coupling of the sharp tip with terminator species on the top and underneath material surface at in-depth friction measurements from 20 to 200 nm. Experimentally, the friction coefficient decreases when nitrogen atoms are substituted for oxygen in the iron network. This effect is interpreted as due to energy losses through phonons whilst lower vibrational frequency excitation modes imply lower friction coefficients and a more accurate adjustment is obtained when a theoretical model with longitudinal adsorbate vibration is used.
publishDate 2014
dc.date.issued.fl_str_mv 2014
dc.date.accessioned.fl_str_mv 2016-06-09T02:08:35Z
dc.type.driver.fl_str_mv Estrangeiro
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status_str publishedVersion
dc.identifier.uri.fl_str_mv http://hdl.handle.net/10183/142395
dc.identifier.issn.pt_BR.fl_str_mv 0003-6951
dc.identifier.nrb.pt_BR.fl_str_mv 000964601
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dc.language.iso.fl_str_mv eng
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dc.relation.ispartof.pt_BR.fl_str_mv Applied physics letters. New York. Vol. 105, no. 11 (Sept. 2014), 111603, 4 p.
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