Estudo da moagem de alta energia e sinterização de pós compósitos W-Cu

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The Tungsten/copper composites are commonly used for electrical and thermal objectives like heat sinks and lectrical conductors, propitiating an excellent thermal and electrical conductivity. These properties are dependents of the composition, crystallite size and production process. The high energy...

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Detalhes bibliográficos
Autor principal: Carvalho, Werson Magno de
Outros Autores: Gomes, Uilame Umbelino
Formato: Dissertação
Idioma:por
Publicado em: Universidade Federal do Rio Grande do Norte
Assuntos:
Compósito W-Cu
Moagem de Alta Energia
Solução Sólida
Método Rietveld
Composite W-Cu
Energy high milling
Solid Solution
Rietveld Method
CNPQ::ENGENHARIAS::ENGENHARIA DE MATERIAIS E METALURGICA
Endereço do item:https://repositorio.ufrn.br/jspui/handle/123456789/12665
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Descrição
Resumo:The Tungsten/copper composites are commonly used for electrical and thermal objectives like heat sinks and lectrical conductors, propitiating an excellent thermal and electrical conductivity. These properties are dependents of the composition, crystallite size and production process. The high energy milling of the powder of W-Cu produces an dispersion high and homogenization levels with crystallite size of W very small in the ductile Cu phase. This work discusses the effect of the HEM in preparation of the W-25Cu composite powders. Three techniques of powder preparation were utilized: milling the dry with powder of thick Cu, milling the dry with powder of fine Cu and milling the wet with powder of thick Cu. The form, size and composition of the particles of the powders milled were observed by scanning electron microscopy (SEM). The X-ray diffraction (XRD) was used to analyse the phases, lattice parameters, size and microstrain of the crystallite. The analyse of the crystalline structure of the W-25Cu powders milled made by Rietveld Method suggests the partial solid solubility of the constituent elements of the Cu in lattice of the W. This analyse shows too that the HEM produces the reduction high on the crystallite size and the increase in the lattice strain of both phases, this is more intense in the phase W

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