Journal of Advances in Nanotechnology and its Applications

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Nanotechnology has emerged as a transformative force in aeronautical engineering, offering the potential to drastically improve the strength, weight, thermal stability, and durability of aircraft materials. Conventional aerospace materials such as aluminum alloys, titanium, and carbon fiber composites, while high-performing, face limitations in fatigue resistance, corrosion behavior, and temperature tolerance. This paper explores the integration of nanomaterials—such as carbon nanotubes (CNTs), graphene, and nano-ceramic reinforcements—into aircraft structural components, coatings, and propulsion systems. Through computational modeling and experimental trials using MATLAB and ANSYS, mechanical and thermal behaviors of nanocomposite structures were analyzed under high-stress flight conditions. Results indicate that CNT-reinforced composites improved tensile strength by 25%, reduced material weight by up to 15%, and enhanced fatigue life by nearly 40%. Moreover, nano-ceramic coatings demonstrated superior oxidation resistance and thermal protection on turbine blades. The findings affirm that nanotechnology can enable next-generation aircraft that are lighter, safer, and more energy-efficient, marking a new era in aeronautical materials design and performance optimization.

Cite as:

Khade V. (2025). Nanotechnology in Aeronautical Engineering for Enhanced Structural and Thermal Performance. Journal of Advances in Nanotechnology and Its Applications, 7(3), 44–48. 

https://doi.org/10.5281/zenodo.17649506