Synthesis and characterization of a novel bisphthalonitrile containing benzoxazine

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Abstract. Phthalonitrile and benzoxazine have been considered as high-performance materials in the field of heterocyclic chemistry. The polymerization of phthalonitrile and benzoxazine accelerated by active phenolic hydroxyl has attracted wide interests. In this work, self-promoted polymerization behavior and processability of phthalonitrile containing benzoxazine (BA-ph) with bisphenol-A (BPA) were investigated. Results revealed that BA-ph/BPA exhibited representative doublestage curing behaviors corresponding to the ring-opening polymerization of benzoxazine rings and ring-formation polymerization of nitrile groups. Compared with that of BA-ph, processability of BA-ph/BPA was improved and could be tuned by varying BPA contents, processing temperature and time. Then BA-ph/BPA/glass fiber (GF) composite laminates were prepared. In comparison with that of BA-ph/GF laminates (542 MPa and 25.8 GPa), the flexural strength and modulus were up to 789 MPa and 23.6 GPa, respectively. Moreover, double T g s were observed at temperature around 200~300°C and 300~380°C, indicating microphase separation during the polymerization of oxazine rings and nitrile groups, confirmed by the scanning electron microscopic (SEM) images. Thermal stabilities demonstrated that all BA-ph/BPA/GF composites exhibited high T 10% up to 510°C. The systematic study of BA-ph/BPA system could enrich our knowledge on phthalonitrile-based resins in industrial applications, especially in the areas which require excellent mechanical properties and high temperature resistance.

Section: Results and Discussion 31 Curing Behaviors Of Ba-ph/bpa Blmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of bisphenol-A on the structures and properties of phthalonitrile-based resin containing benzoxazine

Xu¹,

Jia²,

Liu³

2015

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“…Polybenzoxazine, synthesized by the ring-opening polymerization reaction of cyclic benzoxazine resin only by thermal treatment without the need of catalyst and without producing any harmful by-products during the polymerization process, is recognized as an interesting new class of phenolic resin [1][2][3][4][5]. Moreover, polybenzoxazine provides some characteristics such as excellent dimension stability, high heat resistance, flame retardance and low moisture absorption as well as good dielectric properties in which cannot be found in traditional phenolic resins [6,7].…”

Section: Introductionmentioning

confidence: 99%

Characterizations of polybenzoxazine modified with isomeric biphenyltetracarboxylic dianhydrides

Rimdusit¹,

Ramsiri²,

Jubsilp³

et al. 2012

Abstract.A series of polymeric alloying films were prepared from bisphenol A/aniline-based bifunctional benzoxazine resin (BA-a) with three isomeric biphenyltetracarboxylic dianhydrides, i.e., 2,3!,3,4!-biphenyltetra carboxylic dianhydride (a-BPDA), 2,2!,3,3!-biphenyltetracarboxylic dianhydride (i-BPDA), and 3,3!,4,4!-biphenyltetracarboxylic dianhydride (s-BPDA) through fully thermal curing. Chemical structure, thermomechanical property and thermal stability of bisphenol A/aniline type polybenzoxazine (PBA-a) copolymers were evaluated. Their chemical structures analyzed via Fourier transform infrared spectroscopy reveal ester carbonyl linkage formation between hydroxyl group of the PBA-a and anhydride group in the isomeric dianhydride. Glass transition temperatures (T g s) of the dianhydride-modified PBA-a increased with PBA-a"<<"i-BPDA"<"a-BPDA"<"s-BPDA. Degradation temperatures (T d ) of the PBA-a copolymers recorded to be in the range of 365-402°C were significantly higher than that of the neat PBA-a i.e. 334°C. Finally, char yield of the PBA-a copolymers was found to be about 54-57% which is about twofold increase from that of the parent PBA-a.

“…The curve showed the curing exotherm of the BA-ph monomer exhibited two characteristic exothermic peaks: a peak maximum of about 220°C and the other about 260°C, which was characteristic of the thermal curability of the resin [7,8]. On the contrary, the NP-ph resin showed no sign of a curing reaction in this temperature range without added initiators or catalysts.…”

Section: Self-promoted Curing Behaviors Onmentioning

confidence: 96%

“…All the chemicals and reagents were used without further purification. Phthalonitrile containing benzoxazine (BA-ph) was synthesized and purified according to the procedure reported before [7].…”

mentioning

confidence: 99%

Active diluents effects of 4-nonylphenoxy-1, 2-dinitrilbenzene on phthalonitrile containing benzoxazine and their copolymerization behaviors

Xu¹,

Liu²,

Dong³

et al. 2013

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4-nonylphenoxy-1, 2-dinitrilbenzene (NP-ph), a novel kind of phthalonitrile containing flexible hydrocarbyl chains, has been synthesized. The structures of NP-ph were investigated by Nuclear Magnetic Resonance Spectroscopy (1H-NMR) and Fourier Transform Infrared Spectroscopy (FTIR). Low viscosity NP-ph/phthalonitrile containing benzoxazine (BA-ph) blends were achieved by melt blending BA-ph with various content of NP-ph. Copolymerization behaviors and processability of NP-ph/BA-ph have been investigated by Differential Scanning Calorimetry (DSC) and Dynamic Rheological Analysis. Results indicated that NP-ph/BA-ph blends processability was improved and can be controlled by varying NP-ph contents, processing temperature and time. NP-ph/BA-ph polymers were prepared from the thermal polymerization with short curing time and low curing temperatures without addition of any other curing agents, which displayed high glass transition temperature (>360°C) and attractive thermal decomposition temperature (>420°C). The outstanding glass transition temperature and desirable thermo-oxidative stabilities, together with good processability and sound process conditions could enable the NP-ph/BA-ph polymers to be further explored in the fields under some practical critical circumstances with requirements of high wears and temperatures