Magnetic and structural properties Al-based alloys obtained by mechanical alloying
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2016 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional da UFPE |
| dARK ID: | ark:/64986/001300000fhtr |
| Texto Completo: | https://repositorio.ufpe.br/handle/123456789/17996 |
Resumo: | The quasicrystalline alloy which contains the element aluminum present dispersion of particles in nanometric scale that exhibit high values of mechanical strength at room temperatures and high temperatures. The quasicrystalline solids have no crystallographic conventional symmetrical structures; but they are constituted by a unit cell with periodic repetition in space and ordination mode, intermediate between periodic phases and crystalline phases amorphous non-crystalline. The process of Mechanical alloying, a technique of powder metallurgy developed in the 60's, it was established as a viable processing method in the solid state to produce various quasicrystalline phases metastable and stable. The interest in obtaining this material is due to its good structural, electronic and magnetic properties, and the interactions between the properties. In general, the quasicrystalline alloy show resistant to friction and wear, good electrical and thermal insulators, are hard, used in photonic sensors and some formations of quasicrystals are good hydrogen storers. In this work, researched he used the Mechanical alloying to obtain the icosahedral and decagonal phases Al65Mn22Cu13 and Al67,6Cr23,3Fe9,1 in order to study the magnetic properties. Samples of quasicrystalline alloys were obtained by high energy milling with balls mass ratio of 20: 1 with rotation of 200rpm, at time intervals ranging from 1 hour to 40 hours a planetary ball mill Pulverisette 5 Frittsch. Evaluations of physical characterizations were made by scanning electron microscopy showed a microstructure with nonuniform and large nodules symmetries. The X-ray diffraction provides information about identification of phases resulting from Al65Mn22Cu13 Al67,6Cr23,3Fe9,1 and alloys, the formation of icosahedral phases, intermetallic and decagonal and the presence of typical diffraction pattern peaks of their crystallographic network. The magnetic measurements were performed as a function of temperature M (T), and also due to the applied field F (M). It can be concluded that the formation of quasicrystalline phases is possible as grinding time and speed for Al65Mn22Cu13 Al67,6Cr23,3Fe9,1 and alloys obtained by Mechanical alloying process. |
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RODBARI, Reza Jamshidihttp://lattes.cnpq.br/4297608104518371http://lattes.cnpq.br/4898640358479667HERNÁNDEZ, Eduardo Padrón2016-10-17T13:44:45Z2016-10-17T13:44:45Z2016-07-29https://repositorio.ufpe.br/handle/123456789/17996ark:/64986/001300000fhtrThe quasicrystalline alloy which contains the element aluminum present dispersion of particles in nanometric scale that exhibit high values of mechanical strength at room temperatures and high temperatures. The quasicrystalline solids have no crystallographic conventional symmetrical structures; but they are constituted by a unit cell with periodic repetition in space and ordination mode, intermediate between periodic phases and crystalline phases amorphous non-crystalline. The process of Mechanical alloying, a technique of powder metallurgy developed in the 60's, it was established as a viable processing method in the solid state to produce various quasicrystalline phases metastable and stable. The interest in obtaining this material is due to its good structural, electronic and magnetic properties, and the interactions between the properties. In general, the quasicrystalline alloy show resistant to friction and wear, good electrical and thermal insulators, are hard, used in photonic sensors and some formations of quasicrystals are good hydrogen storers. In this work, researched he used the Mechanical alloying to obtain the icosahedral and decagonal phases Al65Mn22Cu13 and Al67,6Cr23,3Fe9,1 in order to study the magnetic properties. Samples of quasicrystalline alloys were obtained by high energy milling with balls mass ratio of 20: 1 with rotation of 200rpm, at time intervals ranging from 1 hour to 40 hours a planetary ball mill Pulverisette 5 Frittsch. Evaluations of physical characterizations were made by scanning electron microscopy showed a microstructure with nonuniform and large nodules symmetries. The X-ray diffraction provides information about identification of phases resulting from Al65Mn22Cu13 Al67,6Cr23,3Fe9,1 and alloys, the formation of icosahedral phases, intermetallic and decagonal and the presence of typical diffraction pattern peaks of their crystallographic network. The magnetic measurements were performed as a function of temperature M (T), and also due to the applied field F (M). It can be concluded that the formation of quasicrystalline phases is possible as grinding time and speed for Al65Mn22Cu13 Al67,6Cr23,3Fe9,1 and alloys obtained by Mechanical alloying process.As ligas quasicristalinas que contém o elemento o alumínio, apresentam dispersão de partículas em escala nanométrica que apresentam valores elevados de resistência mecânica em temperaturas ambientes e em altas temperaturas. Os sólidos quasicristalinos possuem estruturas simetricas não cristalográfica convencional; mas são constituídos por uma célula unitária com repetição periódica no espaço e ordenação, de modo, intermediário entre as fases cristalinas periódicas e as fases não-cristalinas amofas. O processo de mecanossíntese, uma técnica da metalurgia do pó desenvolvida nos anos 60, foi estabelecido como um método viável de processamento no estado sólido para a produção de várias fases quasicristalinas metaestáveis e estáveis. O interesse de obtenção desse material é devido as suas boas propriedades estruturais, eletrônicas e magnéticas, e a interações entre as propriedades. Em geral, as ligas quasicristalinas mostram resistentes á fricção e ao desgaste, bons isolantes elétricos e térmicos, são duros, utilizados em sensores fotônicos e algumas formações de quasicristais são bons armazenadores de hidrogênio. Neste trabalho, pesquisou o usou da mecanossíntese para a obtenção das fases icosaedral e decagonal Al65Mn22Cu13 and Al67,6Cr23,3Fe9,1 com o intuito de estudar as propriedades magnéticas. As amostras das ligas quasicristalinas foram obtidas por moagem de alta energia com razão massa bolas de 20: 1, com rotação de 200 rpm, nos intervalos de tempo que variou de 1 hora até 40 horas em um moinho de bola planetário Frittsch Pulverisette 5. Avaliação das cararterizções físicas foram feitas por microscopia eletrônica de varredura apresentaram uma microestruturas com simetrias não uniforme e nódulos grandes. Adifração de raios-X fornece informações sobre identificações das fases decorrentes das ligas Al65Mn22Cu13 and Al67,6Cr23,3Fe9,1 as formações das fases Icosaedral, decagonal e intermetálicas e a presença de picos padrões de difração típicos da sua rede cristálografica. As medidas magnéticas realizadas foram em função da temperatura M (T), e também em função do campo aplicado M (H). Pode-se concluir que é possível a formação das fases quasicristalinas conforme o tempo de moagem e da velocidade para ligas Al65Mn22Cu13 and Al67,6Cr23,3Fe9,1 obtido pelo processo mecanossíntese.engUniversidade Federal de PernambucoPrograma de Pos Graduacao em Ciencia de MateriaisUFPEBrasilAttribution-NonCommercial-NoDerivs 3.0 Brazilhttp://creativecommons.org/licenses/by-nc-nd/3.0/br/info:eu-repo/semantics/openAccessMagnetismoQuasicristalMecanossíntese e Fases QuasicristalinasMagnetismQuasicrystalMechanical alloying and Quasicrystalline PhasesMagnetic and structural properties Al-based alloys obtained by mechanical alloyinginfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesismestradoreponame:Repositório Institucional da UFPEinstname:Universidade Federal de Pernambuco (UFPE)instacron:UFPEORIGINALFull Version Text of Masters Dissertation (FINAL).pdfFull Version Text of Masters Dissertation (FINAL).pdfapplication/pdf2248443https://repositorio.ufpe.br/bitstream/123456789/17996/1/Full%20Version%20Text%20of%20Masters%20Dissertation%20%28FINAL%29.pdfa736d9499830c375c8774936a8f7f8b6MD51CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; 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Magnetic and structural properties Al-based alloys obtained by mechanical alloying |
| title |
Magnetic and structural properties Al-based alloys obtained by mechanical alloying |
| spellingShingle |
Magnetic and structural properties Al-based alloys obtained by mechanical alloying RODBARI, Reza Jamshidi Magnetismo Quasicristal Mecanossíntese e Fases Quasicristalinas Magnetism Quasicrystal Mechanical alloying and Quasicrystalline Phases |
| title_short |
Magnetic and structural properties Al-based alloys obtained by mechanical alloying |
| title_full |
Magnetic and structural properties Al-based alloys obtained by mechanical alloying |
| title_fullStr |
Magnetic and structural properties Al-based alloys obtained by mechanical alloying |
| title_full_unstemmed |
Magnetic and structural properties Al-based alloys obtained by mechanical alloying |
| title_sort |
Magnetic and structural properties Al-based alloys obtained by mechanical alloying |
| author |
RODBARI, Reza Jamshidi |
| author_facet |
RODBARI, Reza Jamshidi |
| author_role |
author |
| dc.contributor.authorLattes.pt_BR.fl_str_mv |
http://lattes.cnpq.br/4297608104518371 |
| dc.contributor.advisorLattes.pt_BR.fl_str_mv |
http://lattes.cnpq.br/4898640358479667 |
| dc.contributor.author.fl_str_mv |
RODBARI, Reza Jamshidi |
| dc.contributor.advisor1.fl_str_mv |
HERNÁNDEZ, Eduardo Padrón |
| contributor_str_mv |
HERNÁNDEZ, Eduardo Padrón |
| dc.subject.por.fl_str_mv |
Magnetismo Quasicristal Mecanossíntese e Fases Quasicristalinas Magnetism Quasicrystal Mechanical alloying and Quasicrystalline Phases |
| topic |
Magnetismo Quasicristal Mecanossíntese e Fases Quasicristalinas Magnetism Quasicrystal Mechanical alloying and Quasicrystalline Phases |
| description |
The quasicrystalline alloy which contains the element aluminum present dispersion of particles in nanometric scale that exhibit high values of mechanical strength at room temperatures and high temperatures. The quasicrystalline solids have no crystallographic conventional symmetrical structures; but they are constituted by a unit cell with periodic repetition in space and ordination mode, intermediate between periodic phases and crystalline phases amorphous non-crystalline. The process of Mechanical alloying, a technique of powder metallurgy developed in the 60's, it was established as a viable processing method in the solid state to produce various quasicrystalline phases metastable and stable. The interest in obtaining this material is due to its good structural, electronic and magnetic properties, and the interactions between the properties. In general, the quasicrystalline alloy show resistant to friction and wear, good electrical and thermal insulators, are hard, used in photonic sensors and some formations of quasicrystals are good hydrogen storers. In this work, researched he used the Mechanical alloying to obtain the icosahedral and decagonal phases Al65Mn22Cu13 and Al67,6Cr23,3Fe9,1 in order to study the magnetic properties. Samples of quasicrystalline alloys were obtained by high energy milling with balls mass ratio of 20: 1 with rotation of 200rpm, at time intervals ranging from 1 hour to 40 hours a planetary ball mill Pulverisette 5 Frittsch. Evaluations of physical characterizations were made by scanning electron microscopy showed a microstructure with nonuniform and large nodules symmetries. The X-ray diffraction provides information about identification of phases resulting from Al65Mn22Cu13 Al67,6Cr23,3Fe9,1 and alloys, the formation of icosahedral phases, intermetallic and decagonal and the presence of typical diffraction pattern peaks of their crystallographic network. The magnetic measurements were performed as a function of temperature M (T), and also due to the applied field F (M). It can be concluded that the formation of quasicrystalline phases is possible as grinding time and speed for Al65Mn22Cu13 Al67,6Cr23,3Fe9,1 and alloys obtained by Mechanical alloying process. |
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2016 |
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2016-10-17T13:44:45Z |
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2016-10-17T13:44:45Z |
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2016-07-29 |
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info:eu-repo/semantics/masterThesis |
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Universidade Federal de Pernambuco |
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