A synthesized semi‐aromatic copolyamaide through synergy of three different kinds of monomers: Toward high transparency, excellent heat resistance and melt flowing property

Guo, Jiabao; Li, Haijie; Xue, Bingfeng; Zhu, Donghui; Zhang, Xiaomeng; Zhao, Haitao; Qiao, Xiaoguang; Cui, Zhe; Fu, Peizhen; Zhao, Qian; Pang, Xinchang

doi:10.1002/app.49678

Cited by 6 publications

(4 citation statements)

References 30 publications

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“…Co-Polyamides were synthesized in a 5 L autoclave equipped with a magnetic stirrer in accordance with reference. 26 DDCA and DCA in different relative ratios, MACM, SHP (catalyst), acetic acid, and deionized water were successively added into the autoclave. Here, acetic acid was introduced to prevent postcondensation and further increase of T g , whereas deionized water was used to reduce the volatilization of amine.…”

Section: Sample Preparationmentioning

confidence: 99%

“…[23][24][25] Monomers with rigid cyclic unit or other large pendant groups, such as 4,4'-methylenebis(2-methylcyclohexanamine) (MACM) and 4,4'methylenebis(cyclohexylamine) (PACM), were widely introduced to the backbone to destroy the regularity of molecular chains and therefore the amorphous structures were obtained. [26][27][28] It should be pointed out that these prominent properties of polyamides originate mainly from the strong inter-HB interactions, [29][30][31] which should play a crucial role on the dynamic fragilities. Moreover, the strength of inter-HB interactions of polyamides could be easily mediated by tuning the chain length of diamine or dicarboxylic acid, steric hindrance, and bulkiness, and therefore providing a good candidate to systematically investigate the effect of macromolecular-induced inter-HB strength on fragilities.…”

Section: Introductionmentioning

confidence: 99%

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Effect of intermolecular hydrogen bonding strength on the dynamic fragility of amorphous polyamides

Shi,

Zhang,

2024

Soft Matter

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Section: Sample Preparationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of intermolecular hydrogen bonding strength on the dynamic fragility of amorphous polyamides

Shi,

Zhang,

2024

Soft Matter

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“…The terephthalic acid units in the chain segment will reduce the processing performance of the copolyamides. Adding asymmetric isophthalic acid units to the chain segment can obtain amorphous segments and improve the melt flow performance of the copolyamides [13].…”

Section: Structure-property Relationshipmentioning

confidence: 99%

Research Progress of Semi-Aromatic Copolyamides: Structure-Property Relationship

Yuan

2020

AJOP

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“…On the other hand, a series of transparent poly(hexamethylene isophthalamide/poly(m-benzoyl4,4′-methylenebis(cyclohexylamine)) (PA6I/PACMI) have also been successfully synthesized, which exhibited an essentially amorphous structure and high optical transparency with transmittance reaching up to 90% [ 22 ]. Moreover, a novel transparent engineering polyamide, which was PA 10I/10T (synthesized from poly(decamethylene isophthalamide) (PA10I), isophthalic acid (IPA), and DA10), has also been obtained with the transmittance ranging between 85.0% and 90.0% [ 23 ].…”

Section: Introductionmentioning

confidence: 99%

An Intrinsically Transparent Polyamide Film with Superior Toughness and Great Optical Performance

Li,

Yi,

Wang

et al. 2024

Polymers

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Polyamide 66 was extensively utilized in various applications contributed by its excellent mechanical performance and outstanding durability. However, its high crystallinity renders it to have low transparency, which seriously limits its application in optical devices. Herein, a highly transparent polyamide (PA) 66-based copolymer was reported using 4,4′-diaminodicyclohexylmethane (PACM), adipic acid, and polyamide 66 salt as the reaction monomers. Wide-angle X-ray diffraction (WAXD) analysis revealed that the crystal phase of the synthesized PA66/PACM6 displayed a clear transition from α to γ as the PACM6 increased accompanied by a decreased intensity in the diffraction peak of the copolymer, whose transmittance was successfully adjusted reaching as high as 92.5% (at 550 nm) when the PACM6 was 40 wt%. Moreover, the copolymer with a higher content of PACM6 exhibited larger toughness. On the other hand, the biaxially oriented films of PA66/PACM6 (20 wt%) were also prepared, and it was found that the transparency of the PA66/PACM6 copolymer could be further enhanced via adjusting the stretching ratio of the film. Furthermore, the mechanical strength of the biaxially oriented PA66/PACM6 was also improved with the increase in the orientation degree in the stretching process, indicating that the physical properties of the transparent PA66 were significantly influenced by its alicyclic structure, and the introduction of PACM into PA66 was capable of effectively improving the optical and crystalline characteristics of PA66, revealing that the synthetic strategy has great potential for guiding the design and development of transparent polyamide materials.

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A synthesized semi‐aromatic copolyamaide through synergy of three different kinds of monomers: Toward high transparency, excellent heat resistance and melt flowing property

Cited by 6 publications

References 30 publications

Effect of intermolecular hydrogen bonding strength on the dynamic fragility of amorphous polyamides

Effect of intermolecular hydrogen bonding strength on the dynamic fragility of amorphous polyamides

Research Progress of Semi-Aromatic Copolyamides: Structure-Property Relationship

An Intrinsically Transparent Polyamide Film with Superior Toughness and Great Optical Performance

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