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Diagn?stico das esp?cies ativas do plasma usado em tratamentos termoqu?micos do tit?nioBarbosa, Julio Cesar Pereira 29 April 2011 (has links)
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Previous issue date: 2011-04-29 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Plasma diagnostics by Optical Emission Spectroscopy were performed for electrical discharge in three gas mixture respecting the combinations z N2 y Ar x H2, z N2 y Ar x O2 e z N2 y Ar x CH4, in which the indexes z and y systematically vary from 1 to 4 and x varies from 0 to 4, every one has dimension SCCM, resulting in 80 combinations. From the all obtained spectrums, the species CH (387,1 nm), N2+ (391,4 nm), Hβ (486,1 nm), Hα (656,3 nm), Ar (750,4 nm), O (777,4 nm) e O (842,6 nm) were analyzed because of their abundance and importance on the kinetic of reaction from the plasma to surface, besides their high dependences on the gases flows. Particularly interesting z, y and x combinations were chosen in order to study the influence of active species on the surface modification during the thermochemical treatment. From the mixtures N2 Ar O2 e N2 Ar CH4 were chosen three peculiar proportions which presented luminous intensity profile with unexpected maximum or minimum values, denominated as plasma anomaly. Those plasma concentrations were utilized as atmosphere of titanium treatment maintaining constant the control parameters pressure and temperature. It has been verified a relation among luminous intensity associated to N2+ and roughness, nanohardness and O atoms diffusion into the crystalline lattice of treated titanium and it has been seen which those properties becomes more intense precisely in the higher points found in the optical profile associated to the N2+ specie. Those parameters were verified for the mixture which involved O2 gas. For the mixture which involves CH4 gas, the relation was determinate by roughness, number of nitrogen and carbon atoms diffused into the titanium structure which presented direct proportionality with the luminous intensity referent to the N2+ and CH. It has been yet studied the formation of TiCN phases on the surface which presented to be essentially directly proportional to the increasing of the CH specie and inversely proportional to the increasing of the specie N2+ / Diagn?sticos de plasma por Espectroscopia de Emiss?o ?ptica foram realizados para descarga el?trica em tr?s misturas gasosas, dentro das seguintes combina??es: z N2 y Ar x H2, z N2 y Ar x O2 e z N2 y Ar x CH4, com os ?ndices z e y variando sistematicamente de 1 a 4 e x de 0 a 4, todos com dimens?o de SCCM, resultando em 80 combina??es. Dos espectros obtidos, foram analisadas as esp?cies CH (387,1 nm), N2+ (391,4 nm), Hβ (486,1 nm), Hα (656,3 nm), Ar (750,4 nm), O (777,4 nm) e O (842,6 nm) por serem mais abundantes e importantes na cin?tica de rea??o do plasma ? superf?cie, al?m de suas altas depend?ncias dos fluxos de g?s. Foram escolhidas combina??es z, y e x, particularmente interessantes para estudar a influ?ncia das esp?cies ativas na modifica??o da superf?cie durante o tratamento termoqu?mico. Das misturas N2 Ar O2 e N2 Ar CH4 foram escolhidas tr?s propor??es peculiares que apresentavam perfis de intensidade luminescente com m?ximos ou m?nimos inesperados classificados aqui como anomalias de plasma. Essas concentra??es de plasma foram utilizadas como atmosfera de tratamento de amostras de tit?nio, mantendo-se constante os par?metros press?o e temperatura. Verificou-se rela??o entre intensidade luminosa associada ? esp?cie N2+ e a rugosidade, nanodureza e a difus?o do oxig?nio na rede cristalina do tit?nio tratado e viu-se que essas propriedades se intensificam precisamente nos pontos de m?ximo encontrados no perfil ?ptico dessa esp?cie. Esses par?metros foram verificados para mistura que envolvia o g?s O2. Para a mistura em que se fez presente o g?s CH4, a rela??o foi determinada por meio da rugosidade, n?mero de ?tomos de nitrog?nio e carbono difundidos no tit?nio, que apresentou proporcionalidade direta com a intensidade luminosa referente ?s esp?cies N2+ e CH. Ainda foi estudada a forma??o de fases TiCN na sua superf?cie, que essencialmente se mostra diretamente proporcional ao crescimento da esp?cie CH e inversamente proporcional ao crescimento da esp?cie N2+
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