INTECIN   20395
INSTITUTO DE TECNOLOGIAS Y CIENCIAS DE LA INGENIERIA "HILARIO FERNANDEZ LONG"
Unidad Ejecutora - UE
artículos
Título:
Synthesis and characterization of furan resin and their nanocomposites
Autor/es:
GUADALUPE RIVERO; ANALIA VAZQUEZ; LILIANA MANFREDI,
Revista:
JOURNAL OF APPLIED POLYMER SCIENCE
Editorial:
JOHN WILEY & SONS INC
Referencias:
Año: 2010 vol. 117 p. 1667 - 1673
ISSN:
0021-8995
Resumen:
Formaldehyde emissions are nowadays trying
to be reduced because of its atmospheric pollutant
character. Besides, it is encouraged the use of polymeric
materials synthesized from biomass wastes as row materials.
For this reason, furan resins would be an alternative
to phenolic resins, where formaldehyde is replaced by furfural
as a reactant. Regarding, the addition of nanoparticles
to the furan resin should enhance their performance
as metal coatings with good thermal and oxidative resistance.
The aim of this article is to study the influence of the
in situ addition of different type of nanoparticles on the
chemical reactions involved in the synthesis of a furan
resin. From the viscosity measurements it was observed
that the addition of the nanoreinforcements led to a higher
resin reaction rate. Differences in the final chemical structure
among the materials were also observed by infrared
spectroscopy analyses.
chemical reactions involved in the synthesis of a furan
resin. From the viscosity measurements it was observed
that the addition of the nanoreinforcements led to a higher
resin reaction rate. Differences in the final chemical structure
among the materials were also observed by infrared
spectroscopy analyses.
chemical reactions involved in the synthesis of a furan
resin. From the viscosity measurements it was observed
that the addition of the nanoreinforcements led to a higher
resin reaction rate. Differences in the final chemical structure
among the materials were also observed by infrared
spectroscopy analyses.
chemical reactions involved in the synthesis of a furan
resin. From the viscosity measurements it was observed
that the addition of the nanoreinforcements led to a higher
resin reaction rate. Differences in the final chemical structure
among the materials were also observed by infrared
spectroscopy analyses.
addition of different type of nanoparticles on the
chemical reactions involved in the synthesis of a furan
resin. From the viscosity measurements it was observed
that the addition of the nanoreinforcements led to a higher
resin reaction rate. Differences in the final chemical structure
among the materials were also observed by infrared
spectroscopy analyses.