Omar Aguilar-García scite author profile

Omar Aguilar-García

4Publications

7Citation Statements Received

9Citation Statements Given

How they've been cited

How they cite others

Affiliations

National Technological Institute of Mexico, Morelia Institute of Technology

Publications

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Electrical and mechanical properties enhancing of PMMA and PA6 by functionalized MWCNTs addition

et al. 2018

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PA6 and PMMA polymers with different MWCNTs addition (5, 7 and 9 wt %) were synthetized through casting solution, resulting in improvement properties in contrast to pristine polymers. SEM images showed the MWCNTs embedded into polymeric matrices. D, G and G´ bands of MWCNTs were confirmed by Raman spectroscopy and functional groups observed in both nanocomposites by FTIR demonstrated a strong interaction. A significant increasing in electrical conductivity and microhardness was observed in all the nanocomposites. Major microhardness values were obtained in MWCNTs/PA6 (50 HV) however the MWCNTs/PMMA nanocomposites showed the highest electrical conductivity value (6.4×10-4 S/cm).

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Increasing Bending Strength of Porcelain Stoneware via Pseudoboehmite Additions

Aguilar-García

Lara-Hernández

Arellano-Lara

et al. 2014

Journal of Ceramics

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Pseudoboehmite nanoparticles synthesized through the desulfation of Al2(SO4)3 were used to investigate the reinforcement of commercial porcelain stoneware. Fractured specimens investigated by SEM suggest that the added pseudoboehmite precursor generated a nanometric primary mullite phase dispersed in the porcelain glassy phase that limited and stopped the intergranular crack propagation. The porcelain modulus of rupture increased twice the value of the modulus of rupture (108 MPa) as compared with that samples without pseudoboehmite additions. Pseudoboehmite also led to increased densification of porcelain stoneware bodies up to 1250°C as shown by thermodilatometry data.

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Characterization and comparison of carbon structures synthesized from rubber waste and naphthalene

et al. 2022

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Statistical analysis of improved mechanical properties of clay composites by the addition of natural fibers

et al. 2022

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