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Stealth technology: Methods and composite materials—A review
Author(s) -
Ahmad Husnain,
Tariq Asra,
Shehzad Amir,
Faheem Muhammad S.,
Shafiq Muhammad,
Rashid Iqra A.,
Afzal Ayesha,
Munir Adnan,
Riaz Muhammad T.,
Haider Hafiz T.,
Afzal Ali,
Qadir Muhammad B.,
Khaliq Zubair
Publication year - 2019
Publication title -
polymer composites
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.577
H-Index - 82
eISSN - 1548-0569
pISSN - 0272-8397
DOI - 10.1002/pc.25311
Subject(s) - materials science , composite material , composite number , carbon nanotube , graphene , reflection loss , carbon black , absorption (acoustics) , specific strength , filler (materials) , microstructure , advanced composite materials , nanotechnology , natural rubber
Composites have revolutionized the field of aeronautics with its intriguing properties including high strength to weight ratio, low weight, chemical and weather resistance, flexible design and low cost of installation. Also, composites are used as radar absorbing materials (RAMs) in the manufacturing of stealth aircraft. Stealth technology (ST) uses a combination of RAMs and geometry to minimize the reflection of electromagnetic waves back to a radar system. In this review article, working principle and basic constituents of ST are examined along with RAMs types in the light of composites. Moreover, recently developed carbonaceous‐based polymer composites are critically discussed in terms of RAMs for stealth applications. A carbonaceous‐based composite provides a high flexibility for the design and properties control. Carbon black particles, carbon fibers, carbon nanotubes (CNTs), and graphene are used in composites to tailor the wave's absorption properties of a composite. Multilayered structures are also recommended by researchers to extend the absorption band for better stealth application. Optimized absorption properties were achieved from composites containing carbon fiber as filler. Also, CNTs are preferred due to its smaller loading (0.35%) to get conductivity equal to higher concentration of carbon black (20%), which consequently improves the ST. Enhanced electromagnetic absorption properties can be achieved form the graphene‐based RAMs along with incorporating the magnetic particles of different microstructures, particle size, and electromagnetic characteristics. This review will intensively cover the methodology of ST and different composites including carbon‐based composites as RAMs for the use in stealth technology.

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