Influence of self-assembled compliant domains on the polymer network and mechanical properties of POSS-epoxy nanocomposites under cryogenic conditions

[Display omitted] •POSS form self assembled compliant domains at higher loading in the polymer network.•Inclusion of POSS in the epoxy resin increases the fracture toughness at cryogenic condition.•No change in the free volumes in the have been observed from positron annihilation spectroscopy with t...

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Bibliographic Details
Published in:European polymer journal 2019-07, Vol.116, p.283-290
Main Authors: Mishra, Kunal, Gidley, David, Singh, Raman P.
Format: Article
Language:English
Subjects:
Domains
Embrittlement
Epoxy resins
Fracture mechanics
Fracture toughness
Intermolecular forces
Low temperature environments
Low temperature physics
Mechanical properties
Nanocomposites
PALS
Polyhedral oligomeric silsesquioxane
Polymer matrix composites
Polymers
Positron annihilation
POSS
Resins
Scanning electron microscopy
Self-assembly
SEM
TEM
Transmission electron microscopy
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Summary:[Display omitted] •POSS form self assembled compliant domains at higher loading in the polymer network.•Inclusion of POSS in the epoxy resin increases the fracture toughness at cryogenic condition.•No change in the free volumes in the have been observed from positron annihilation spectroscopy with the inclusion of POSS.•No change in coefficient of thermal expansion with the POSS inclusion have been observed. Although epoxy resins have been widely used for engineering applications because of their excellent mechanical properties, they can be brittle and vulnerable to fracture. Such brittle behavior becomes more severe when such resins are subjected to extremely low-temperature environments. In this study, we employ polyhedral oligomeric silsesquioxane (POSS) reinforcement to improve the mechanical properties under cryogenic conditions (77 K). Nanocomposites are prepared by adding POSS at 0.5–8 wt.% to an amine-cured DGEBF based epoxy resin. The results show that at 77 K the fracture toughness of the neat resin increases compared to room temperature due to the increase in intermolecular forces. The fracture toughness results also showed that the addition of POSS leads to an additional 40% improvement in fracture toughness at 77 K at 5 wt.% of POSS loading, as compared to neat resin. Positron annihilation lifetime spectroscopy indicate no changes in the free volume inside the molecular network with the inclusion of POSS. Addition of POSS leads to the formation of compliant domains, as shown by transmission electron microscopy. Scanning electron microscopy of fractured surfaces shows evidence of extrinsic toughening mechanisms due to POSS inclusion. Tg variation corroborates the existence of soft POSS-POSS domains.
ISSN:0014-3057
1873-1945
DOI:10.1016/j.eurpolymj.2019.02.034