Pierre Arneodo scite author profile

Pierre Arneodo

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Bariloche Atomic Centre, Consejo Nacional de Investigaciones Científicas y Técnicas

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Fabricación de espumas de cobre por pulvimetalurgia

et al. 2018

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RESUMENSe presenta un método de fabricación de esponjas de cobre por pulvimetalurgia, empleando perlas de urea como formadores de poros que son removidas por disolución en agua antes de sinterizar el compacto. Este método permite un control preciso de las características de las celdas (tamaño, forma y distribución), obteniéndose una porosidad de celdas interconectadas. El empleo de metales en polvo lleva a tener una porosidad asociada a las paredes de las mismas que afecta a las propiedades mecánicas, provocando la falla a tensiones menores de lo esperable. Se optimizó el método de fabricación seleccionando los parámetros de sinterizado (presión de compactado, temperatura y atmósfera). Para caracterizar la meso y microestructura de las muestras se emplearon técnicas de microscopía tradicionales (microscopio electrónico de barrido SEM) y tomografía de rayos x. Esta última técnica permite visualizar en 3D la distribución de las celdas, realizar una caracterización completa de la mesoestructura, evaluar la porosidad de las muestras y seguir la evolución de la deformación de las celdas en ensayos de compresión.Palabras clave: esponjas metálicas, pulvimetalurgia, cobre. ABSTRACTA method for the fabrication of copper foams by powder metallurgy, employing carbamide beads as space holders, is presented. These are removed by water dissolution before sintering the compact. The method allows for a precise control of the cell characteristics (size, shape and distribution) within an interconnected porosity. The use of metal powder promotes the formation of an inherent porosity in the cell walls that affects their mechanical properties, producing failure at a lower than expected tension. Optimization of the method was achieved by selecting the sintering parameters (compaction pressure, temperature and atmosphere). The mesostructure and microstructure of the samples were characterized by traditional microscopy (scanning electron microscope SEM) and x-ray tomography. The latter technique allows a 3D visualization of the cell distribution, a complete characterization of the mesostructure, the evaluation of the porosity and to follow the cell evolution during compression tests.

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Pierre Arneodo

Fabricación de espumas de cobre por pulvimetalurgia

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