High-performance thermoplastic nanocomposites for aerospace applications: A review of synthesis, production, and analysis

Guney Yilmaz, Sukran; Ferik, Erdem; Birak, Selahattin Berat; Ozkutlu Demirel, Merve; Oz, Yahya; Kaboglu, Cihan

doi:10.1177/07316844241272035

Journal of Reinforced Plastics and Composites

2024

DOI: 10.1177/07316844241272035

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High-performance thermoplastic nanocomposites for aerospace applications: A review of synthesis, production, and analysis

Sukran Guney Yilmaz,

Erdem Ferik,

Selahattin Berat Birak

et al.

Abstract: Thermoset polymers are cured under natural or synthetic created conditions and retain their solid form when exposed to heat. Unlike thermosets, thermoplastics melt when exposed to heat after production. Thermoplastics are preferred as raw materials because they can be easily shaped after production, have a high shelf life and are recyclable. In this regard, the prominence of high-performance engineering polymers in recent years has led to the preference of alternative polymers to thermosets. High-performance e… Show more

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Cited by 3 publications

References 240 publications

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Study on mechanical performance of carbon fiber reinforced polyetherketoneketone prepreg and its composites prepared by slurry method

Cheng,

Shen,

Chen

et al. 2024

Polymer Composites

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The increasing demand for high‐performance materials in aerospace, automotive, and industrial applications has driven research into carbon fiber reinforced polyetherketoneketone (CF/PEKK) composites. This study introduces a novel slurry method for preparing CF/PEKK prepregs and investigates the impact of fiber surface treatments—desized and non‐desized carbon fibers—on the mechanical properties of the resulting composites. CF/PEKK prepregs were successfully prepared by dispersing PEKK powder in deionized water to create a slurry, which was used to impregnate carbon fibers. After hot‐pressing, mechanical testing revealed that composites with desized fibers outperformed those with non‐desized fibers in tensile strength (3.29%), flexural strength (22.12%), and interlaminar shear strength (18.29%). Furthermore, desized composites exhibited improved impact toughness (24.29%) and reduced fiber pull‐out during tensile testing. Scanning electron microscopy (SEM) analysis confirmed enhanced fiber‐matrix bonding in desized composites, with fewer voids and better fiber dispersion. These findings underscore the effectiveness of the slurry method and fiber desizing in improving the mechanical performance of CF/PEKK composites, offering potential for advanced applications in high‐performance sectors.Highlights Thermoplastic CF/PEKK prepregs successfully developed using slurry method. Novel slurry method enhances prepreg quality in CF/PEKK composites. Desized carbon fibers improve interfacial bonding and strength. Desized composites exhibit reduced fiber pull‐out during tensile testing.

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Study on mechanical performance of carbon fiber reinforced polyetherketoneketone prepreg and its composites prepared by slurry method

Cheng,

Shen,

Chen

et al. 2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

Halogen-free polymer composites: advancing sustainable and high-performance flexible electronics

Sabet

2024

Iran Polym J

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Thermo-electric Characterization of Hydroxyapatite/ Multi-walled Carbon Nanotube Reinforced Polyetheretherketone Polymer Composites

Joshi,

Das Lala,

Deb

et al. 2024

Journal of Macromolecular Science, Part B

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High-performance thermoplastic nanocomposites for aerospace applications: A review of synthesis, production, and analysis

Cited by 3 publications

References 240 publications

Study on mechanical performance of carbon fiber reinforced polyetherketoneketone prepreg and its composites prepared by slurry method

Study on mechanical performance of carbon fiber reinforced polyetherketoneketone prepreg and its composites prepared by slurry method

Halogen-free polymer composites: advancing sustainable and high-performance flexible electronics

Thermo-electric Characterization of Hydroxyapatite/ Multi-walled Carbon Nanotube Reinforced Polyetheretherketone Polymer Composites

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