Journal ArticleDOI
Diglycidyl ether of bisphenol-A epoxy resin–polyether sulfone/polyether sulfone ether ketone blends: phase morphology, fracture toughness and thermo-mechanical properties
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In this article, the properties of diglycidyl ether of bisphenol-A epoxy resin toughened with poly(ether sulfone ether ketone) (PESEK) polymers were investigated.Abstract:
The properties of diglycidyl ether of bisphenol-A epoxy resin toughened with poly(ether sulfone ether ketone) (PESEK) and poly(ether sulfone) (PES) polymers were investigated. PESEK was synthesised by the nucleophilic substitution reaction of 4,4’-difluorobenzophenone with dihydroxydiphenylsulfone using sulfolane as solvent and potassium carbonate as catalyst at 230 °C. The T
g–composition behaviour of the homogeneous epoxy resin/PESEK blend was modelled using Fox, Gordon–Taylor and Kelley–Bueche equations. A single relaxation near the glass transition of epoxy resin was observed in all the blend systems. From dynamic mechanical analysis, the crosslink density of the blends was found to decrease with increase in the thermoplastic concentration. The storage modulus of the epoxy/PESEK blends was lower than that of neat resin, whilst it is higher for epoxy/PES blends up to glass transition temperature, thereafter it decreases. Scanning electron microscopic studies of the blends revealed a homogeneous morphology. The homogeneity of the blends was attributed to the similarity in chemical structure of the modifier and the cured epoxy network and due to the H-bonding interactions between the blend components. The fracture toughness of epoxy resin increased on blending with PESEK and PES. The increase in fracture toughness was due to the increase in ductility of the matrix. The thermal stability of the blends was comparable to that of neat epoxy resin.read more
Citations
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Journal ArticleDOI
High‐Performance Pristine Graphene/Epoxy Composites With Enhanced Mechanical and Electrical Properties
TL;DR: Dear Author, to avoid commonly occurring errors, please ensure that the following important items are correct in your proofs (online, no further corrections can be made): Names of all authors present and spelled correctly Titles of authors correct.
Journal ArticleDOI
Improvements in thermal, mechanical, and dielectric properties of epoxy resin by chemical modification with a novel amino-terminated liquid-crystalline copoly(ester amide)
TL;DR: In this article, a novel amino end-capped aromatic liquid crystalline copoly(ester amide) (LCP) was used to improve the thermal and mechanical properties of DGEBA cured with 4,4′-diaminodiphenylsulfone (DDS).
Journal ArticleDOI
The influence of ultra-fine glass fibers on the mechanical and anticorrosion properties of epoxy coatings
TL;DR: In this article, the effects of different contents of ultra-fine glass fiber on mechanical and anticorrosion properties of epoxy coatings have been investigated, and the results showed that when 10, 20, 30% of ultrafine glass fibers are added to the coatings, their hardness and adhesion increases by 67, 67, 200% and 21.6%, 39, 40%, respectively, compared with the properties of the pure coating.
Journal ArticleDOI
Polyether Sulfone-Based Epoxy Toughening: From Micro- to Nano-Phase Separation via PES End-Chain Modification and Process Engineering.
TL;DR: The toughness of a high-performance thermosetting epoxy network can be greatly improved by generating polyether sulfone−based macro- to nano-scale morphologies by tuning by changing curing conditions and put into perspective with PES chain-end nature.
Journal ArticleDOI
Epoxy resin flame retarded and toughed via flexible siloxane chain containing phosphaphenanthrene
TL;DR: In this article, a flexible siloxane chain containing phosphaphenanthrene structure (KHDOPO) was chemically grafted onto epoxy resin macromolecules, which exhibited satisfactory flame retardancy and thermal stability.
References
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