Thermal and mechanical properties of simultaneous and sequential full-interpenetrating polymer networks
Articolo
Data di Pubblicazione:
2004
Abstract:
An investigation of the thermal and mechanical characteristics of new full-interpenetrating polymer networks (full-IPNs), prepared by
simultaneous and sequential synthesis paths, has been performed in the temperature regions above and below the glass transition. It has
been observed that simultaneous full-IPNs exhibit higher values of density than sequential full-IPNs, as a consequence of an enhanced
intermolecular packing. This peculiarity leads to an increase of the glass transition temperature and to a larger “gamma-suppression” effect for
the gamma2-relaxation characterizing the polycyanurate phase of simultaneous full-IPNs, which has been ascribed to reduction of the free-volume
available for the molecular group rearrangements.
simultaneous and sequential synthesis paths, has been performed in the temperature regions above and below the glass transition. It has
been observed that simultaneous full-IPNs exhibit higher values of density than sequential full-IPNs, as a consequence of an enhanced
intermolecular packing. This peculiarity leads to an increase of the glass transition temperature and to a larger “gamma-suppression” effect for
the gamma2-relaxation characterizing the polycyanurate phase of simultaneous full-IPNs, which has been ascribed to reduction of the free-volume
available for the molecular group rearrangements.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Thermal properties; Internal friction; Amorphous polymers
Elenco autori:
Bartolotta, Antonino; DI MARCO, Gaetano; Lanza, Maurizio
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