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This review explores carbon-based radar absorbing materials (RAMs) for advanced stealth technology. These materials offer high performance for military applications by minimizing radar detection.

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Area of Science:

  • Materials Science
  • Electromagnetics
  • Military Technology

Background:

  • Stealth technology enhances military equipment survivability by evading radar detection.
  • Radar absorbing materials (RAMs) are crucial for passive countermeasures, reducing radar signal reflection.
  • Optimizing RAM properties involves tailoring composition, microstructure, and surface geometry.

Purpose of the Study:

  • To review recent advancements in carbon-based radar absorbing materials for stealth applications.
  • To examine the principles and strategies for electromagnetic attenuation using various carbon materials.
  • To provide insights for designing and fabricating high-performance carbon-based RAMs.

Main Methods:

  • Review of historical stealth technology and radar systems.
  • Analysis of carbon-based materials including carbon blacks, fibers, nanotubes, graphite, graphene, and MXene.
  • Examination of electromagnetic wave interaction and attenuation mechanisms.

Main Results:

  • Carbon-based materials are promising for ultrathin, high-performance RAMs due to their unique properties.
  • Specific surface area, dielectric properties, conductivity, and stability are key factors in RAM performance.
  • Various carbon allotropes offer versatile platforms for developing effective radar absorption.

Conclusions:

  • Carbon-based materials offer significant potential for next-generation stealth applications.
  • Further research into carbon-based RAMs can lead to improved military surveillance countermeasures.
  • This review provides a foundation for understanding and developing advanced radar absorbing materials.