J. Bárcena scite author profile

The preparation procedure of epoxy and benzoxazine multi-walled carbon nanotube buckypaper composites is described. The morphology of the buckypaper is characterized by scanning electron microscopy and porosimetry, revealing a non-uniform porous structure. The wetting behavior of epoxy and benzoxazine resins in the buckypaper surface is studied by contact angle measurements. Scanning electron microscopy photographs of the composites obtained by infiltration of the buckypaper with epoxy and benzoxazine resins and subsequent curing reveal that a good impregnation is achieved. Thermal conductivity results reveal higher values for pristine buckypaper than for the composites, which is explained by the extremely small thermal conductance of the nanotube–polymer interface. The thicker resin layer surrounding the nanotubes observed in the buckypaper/epoxy composite justifies its lower conductivity, as compared with the buckypaper/benzoxazine composite.

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Ti3SiC2-Cf composites by spark plasma sintering: Processing, microstructure and thermo-mechanical properties

Lagos

Pellegrini

Agote

et al. 2019

Journal of the European Ceramic Society

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Joining of ceramic matrix composites to high temperature ceramics for thermal protection systems

Jiménez

Mergia

Lagos

et al. 2016

Journal of the European Ceramic Society

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Thermal shock performance of carbon-bonded carbon fiber composite and ceramic matrix composite joints for thermal protection re-entry applications

Triantou

Mergia

Perez

et al. 2017

Composites Part B: Engineering

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J. Bárcena

Analysis of the conditions to manufacture a MWCNT buckypaper/benzoxazine nanocomposite

Manufacturing, characterization and thermal conductivity of epoxy and benzoxazine multi-walled carbon nanotube buckypaper composites

Ti3SiC2-Cf composites by spark plasma sintering: Processing, microstructure and thermo-mechanical properties

Joining of ceramic matrix composites to high temperature ceramics for thermal protection systems

Thermal shock performance of carbon-bonded carbon fiber composite and ceramic matrix composite joints for thermal protection re-entry applications

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