Fabrication and characterization of alumina/graphenebased ceramics via sol-gel and reactive spark plasma sintering method

Fabrication and characterization of alumina/graphenebased ceramics via sol-gel and reactive spark plasma sintering method

The fabrication of advanced ceramic matrix composites (CMCs) with low-dimensional carbón allotropes phases is currently an open research topic. One of the modern challenges still remains to overcome common experimental issues, regarding the homogeneity of the nanocarbon dispersion, their location wi...

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Bibliografiske detaljer
Hovedforfatter: Rios Andagoya, Lady Jaqueline (author)
Format: bachelorThesis
Sprog:eng
Udgivet: 2021
Fag:
Óxido de Grafeno
XPS
Raman
Propiedades mecánicas
Boehmita
Graphene oxide
Mechanical properties
Boehmite
Online adgang:http://repositorio.yachaytech.edu.ec/handle/123456789/322
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Summary:The fabrication of advanced ceramic matrix composites (CMCs) with low-dimensional carbón allotropes phases is currently an open research topic. One of the modern challenges still remains to overcome common experimental issues, regarding the homogeneity of the nanocarbon dispersion, their location within the ceramic matrix, and the type of bonding between the filler and the matrix. This work introduces the fabrication of fully-dense alumina/graphene ceramic matrix composites by the sol-gel route and reactive spark plasma sintering, as an alternative methodology to improve the dispersion of the graphene flakes within the composite, and to promote the formation of strong bonds between graphene flakes and the ceramic matrix such as Al-O-C oxygen bridges. The micro/nano structures are researched by: nitrogen physisorption, Raman spectroscopy, electron microscopy and X-ray Photoelectron Spectroscopy (XPS). SEM observations revealed the absence of graphene agglomerations suggesting the efficacy of this abrication approach. Raman analyses have confirmed the integrity of the graphene along the abrication process. Mechanical features such as hardness, and indentation fracture toughness ere measured for different graphene contents. Our results are compared with those from conventional alumina/graphene CMCs, and suggest that the current approach would offer an appealing route to fabricate reinforced alumina/nanocarbon based ceramics.

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