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Review Article
Received: 27 Oct 2024, Accepted: 03 Mar 2025,
 


Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers

Zaara Ali, Emanuel Andrade, Eylem Asmatulu.

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    • Abstract
    A growing number of flying hours dictates an improved safety level of crew, staff, passengers, and valuable assets. Improved material usage in the interior, as well as the structure of the airplane, is crucial. Flame-resistant electrospun polymeric nanofiber usage may improve safety and the anticipated impacts in manufacturing the structural parts. Historically, many aircraft accidents have been exacerbated by fires, leading to significant loss of life and property. Traditional materials, such as textiles and polymers used in aircraft cabins, are prone to fire hazards. Recent advances in materials science, particularly the development of polymeric nanocomposite fibers, offer promising solutions to improve flame resistance while maintaining the necessary lightweight and durable properties for aircraft interiors. This comprehensive analysis examines the integration of flame-retardant elements into polymers, offering insights into the development of innovative electrospun nanofibers specifically engineered to meet stringent flame retardancy standards for aviation applications.

    Key words: Fire resistance, composite, Polyetheretherketone, polyimide, polyether ketone, electrospinning, aircraft fires.


    		 
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    How to Cite this Article
    Pubmed Style

    Ali Z, Andrade E, Asmatulu E. Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers. Journal of Engineering and Applied Sciences. 2025; 12(1): 74-88. doi:10.5455/jeas.2025010609

    Web Style

    Ali Z, Andrade E, Asmatulu E. Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers. https://jecasmu.org/?mno=226250 [Access: December 24, 2025]. doi:10.5455/jeas.2025010609

    AMA (American Medical Association) Style

    Ali Z, Andrade E, Asmatulu E. Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers. Journal of Engineering and Applied Sciences. 2025; 12(1): 74-88. doi:10.5455/jeas.2025010609


    Vancouver/ICMJE Style

    Ali Z, Andrade E, Asmatulu E. Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers. Journal of Engineering and Applied Sciences. (2025), [cited December 24, 2025]; 12(1): 74-88. doi:10.5455/jeas.2025010609


    Harvard Style

    Ali, Z., Andrade, . E. & Asmatulu, . E. (2025) Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers. Journal of Engineering and Applied Sciences, 12 (1), 74-88. doi:10.5455/jeas.2025010609


    Turabian Style

    Ali, Zaara, Emanuel Andrade, and Eylem Asmatulu. 2025. Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers. Journal of Engineering and Applied Sciences, 12 (1), 74-88. doi:10.5455/jeas.2025010609


    Chicago Style

    Ali, Zaara, Emanuel Andrade, and Eylem Asmatulu. "Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers." Journal of Engineering and Applied Sciences 12 (2025), 74-88. doi:10.5455/jeas.2025010609


    MLA (The Modern Language Association) Style

    Ali, Zaara, Emanuel Andrade, and Eylem Asmatulu. "Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers." Journal of Engineering and Applied Sciences 12.1 (2025), 74-88. Print. doi:10.5455/jeas.2025010609


    APA (American Psychological Association) Style

    Ali, Z., Andrade, . E. & Asmatulu, . E. (2025) Improving Flame Resistance of Aircraft Interiors via Polymeric Nanocomposite Fibers. Journal of Engineering and Applied Sciences, 12 (1), 74-88. doi:10.5455/jeas.2025010609


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    • ISSN: 1658-6638 (print)
    • ISSN: 1658-7073 (electronic)