2013
DOI: 10.1002/pen.23709
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Synthesis and properties of poly(aryl ether ketone)‐based phthalonitrile resins

Abstract: A series of poly(aryl ether ketone) oligomers containing phthalonitrile were synthesized by a direct solution polycondensation, and characterized by fourier transform infrared spectroscopy and hydrogen nuclear magnetic resonance. Differential scanning calorimetry results showed the oligomers had low melting points and large processing windows (103–124°C) in the presence of bis[4‐(4‐aminophenoxy)phenyl]sulfone. The uncured synthesized oligomers had good solubility while the cured samples became insoluble in com… Show more

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Cited by 41 publications
(37 citation statements)
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“…These values show that both the polymers possess excellent thermal and thermos‐oxidative stabilities owing to the presence of the thermally stable pyridine moieties in the polymer backbone. Furthermore, these thermal data are higher than those of many cured ether‐linked monomers (e.g., BAPh, BPh, 6FPh, BDS, BDCN) and poly (aryl ether)‐based phthalonitrile (e.g., PAEK‐CN, PEN‐t‐Ph, 2CN‐o‐PEEK, and also several oligomers reported by Keller), but somewhat lower than those of cured TDPE 30 and 1,6‐BDCN (The corresponding thermal data of the reported networks are summarized in Supporting Information Table S1).…”
Section: Resultsmentioning
confidence: 85%
“…These values show that both the polymers possess excellent thermal and thermos‐oxidative stabilities owing to the presence of the thermally stable pyridine moieties in the polymer backbone. Furthermore, these thermal data are higher than those of many cured ether‐linked monomers (e.g., BAPh, BPh, 6FPh, BDS, BDCN) and poly (aryl ether)‐based phthalonitrile (e.g., PAEK‐CN, PEN‐t‐Ph, 2CN‐o‐PEEK, and also several oligomers reported by Keller), but somewhat lower than those of cured TDPE 30 and 1,6‐BDCN (The corresponding thermal data of the reported networks are summarized in Supporting Information Table S1).…”
Section: Resultsmentioning
confidence: 85%
“…The results disclose that the T g s of 7s were from 418 to 424 C. High diamine loading (6 wt%e10 wt%) would caused a slight decrease of T g . Compared to the poly(aryl ether)-based phthalonitrile oligomers like PAEK-CN [40], PEN-t-Ph [44], , PEN-CN3 [45], and 6 [7b], the T g s of 7s are higher than those of phthalonitrile thermosets (Table S5, column T g ). This is resulted from the contribution of the high-stiff phenyl-s-triazine moieties to the rigidity of the polymer backbone.…”
Section: Mechanical Properties Of Network 7s/cf Laminatesmentioning
confidence: 98%
“…The fact is ascribed to the corresponding increase of the cross-linking density driven by the increasing 6 inclusion. Furthermore, owing to the presence of the thermally stable phenyl-s-triazine units in the polymer backbone, these thermal data are higher than those of many cured poly(aryl ether)-based phthalonitrile networks (e.g., PAEK-CN [40], PEN-t-BAPh [21a], , and also several oligomers disclosed by Keller [3f,9,33,41]), the ether-linked monomers (e.g.,BDS [42], BPh, BAPh, 6FPH [15b], RPh [7a], and monomers 1e3 [16b]), and the self-curable monomers (e.g.,2OeP [16a], 3a-b [39], and 4O-M [3b]), but slightly lower than those of the cured TDPE [13b] and silane-bearing HSiPN-ViSiPN [17] (The corresponding thermal data of the reported networks are summarized in Table S5). However, a certain length of the molecular chain of 5 lowers the cross-linking density of 7 as compared to the above mentioned phthalonitrile monomers, which weakens the role of phenyl-s-triazine groups, in turn to lower the thermal stabilities of (7) after cured with different mass ratios of 6 under N 2 atmosphere.…”
Section: Thermal and Thermo-oxidative Stabilitymentioning
confidence: 99%
“…In addition, a low melt complex viscosity (0.01–1.0 Pa·s) of phthalonitrile monomers or oligomers enables facile processing by the cost‐effective, non‐autoclavable processing techniques such as RTM, resin infusion molding, and filament winding . During the past 30 years, systematic studies have been conducted at Naval Research Laboratory (NRL) on phthalonitrile resins in terms of cure behaviors, processabilities, and properties of the phthalonitrile resins . Aromatic ether , ketone , and sulfone linkages have been previously introduced into phthalonitrile systems, and this has resulted in polymers with outstanding thermal properties.…”
Section: Introductionmentioning
confidence: 99%
“…During the past 30 years, systematic studies have been conducted at Naval Research Laboratory (NRL) on phthalonitrile resins in terms of cure behaviors, processabilities, and properties of the phthalonitrile resins . Aromatic ether , ketone , and sulfone linkages have been previously introduced into phthalonitrile systems, and this has resulted in polymers with outstanding thermal properties. Most previous studies on phthalonitrile resins focused on the synthesis of the new phthalonitrile monomers or oligomers having low molecular weights to obtain wide processing temperature windows and low melt complex viscosity.…”
Section: Introductionmentioning
confidence: 99%