Polymeric Nanocomposites with Carbonaceous Nanofillers for Aerospace Applications offers a comprehensive paperback on the aerospace relevance of polymer/carbonaceous nanofiller-based nanocomposite. This manuscript summarizes all specific information on the design, fabrication and application areas of aerospace industry that employ polymer/carbonaceous nanofiller-based nanocomposites. In addition, it points to the potential of aeronautical nanocomposites towards lightning strike, radiation shielding, anti-corrosion, electronic/optical features, thermal management, antistatic application, self-healing aptitude, and green nanocomposites.
The modeling of mechanical and essential properties of aerospace nanocomposites is also discussed, along with challenges and future forecasts of polymer/carbonaceous nanofiller nanocomposites.
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Table of Contents
1. Aeronautical composites and materials 2. Carbonaceous nanofillers in polymer matrix 3. Multifunctional polymer/carbonaceous nanocomposites for aerospace 4. Aerospace relevance of polymer/carbonaceous nanofiller nanocomposites: Mechanical, thermal, non-flammability, and physical aspects� 5. Combined effect of carbonaceous nanofillers and carbon fibers in aerospace 6. Aeronautical nanocomposites for lightning strike prevention, radiation shielding, and stealth features� 7. Conducting polymer/carbonaceous nanocomposite systems for antistatic application� 8. Electronics, optical, and thermal management applications of nanocomposites in aeronautics 9. Anti-corrosion application of nanocomposites for aerospace 10. Modeling of mechanical and essential properties of nanocomposites 11. Self-healing aeronautical nanocomposites� 12. Green composites and nanocomposites for aerospace 13. Future and challenging attributes of aeronautical nanocomposites
Authors
Ayesha Kausar National Centre for Physics, Islamabad, Pakistan.Ayesha Kausar currently works for the National Centre for Physics in Islamabad, Pakistan. She was previously affiliated with Quaid-i-Azam University and the National University of Sciences and Technology, both in Islamabad, Pakistan. She obtained her PhD from Quaid-i-Azam University and the Korea Advanced Institute of Science and Technology, Daejeon, South Korea. Dr. Kausar's current research interests include the design, fabrication, characterization, and exploration of structure-property relationships and potential prospects of nanocomposites, polymeric nanocomposites, polymeric composites, polymeric nanoparticles, polymer dots, nanocarbon materials (graphene and derivatives, carbon nanotube, nano-diamond, carbon nano-onion, carbon nano-coil, carbon nanobelt, carbon nano-disk, carbon dot, and other nanocarbons), hybrid materials, eco-friendly materials, nanocomposite nanofibers, and nanofoam architectures. Consideration of morphological, mechanical, thermal, electrical, anticorrosion, barrier, flame retardant, radiation shielding, biomedical, and other essential materials properties for aerospace, automotive, fuel cell membranes, Li-ion battery electrodes, electronics, sensors, solar cells, water treatment, gas separation, textiles, energy production and storage devices, biomaterials, and other technical relevance are among her notable research concerns.
