Electromagnetic Shielding Properties of Super Fiber-Reinforced Composites

Hua Yang; Atsuhiko Yamanaka; Qing Qing Ni

doi:10.4028/www.scientific.net/AMR.123-125.65

Paper Titles

Effect of Z-Pin on the through-the-Thickness Strength of Woven Composite Laminates
p.47

Effects of Mechanical Alloying on the Mechanical and Tribological Properties of Al-Cu-Mg Matrix Composites Reinforced by Sub-Micron Silicon Carbide Particles
p.51

Effects of Surfactant Content and Clay Content on Properties of NR Nanocomposites
p.55

Electrical, Thermal and Positron Lifetime Spectroscopy Studies on Multi-Walled Carbon Nanotube Reinforced High Density Polyethylene/Carbon Black Nanocomposites
p.59

Electromagnetic Shielding Properties of Super Fiber-Reinforced Composites
p.65

Environmental Effects on Mechanical Properties of Modified and Unmodified Carbon Nanotube/Epoxy Resin Nanoomposites
p.69

Evaluation of Recycled Far-Infrared/Impact-Resistant Poly(propylene) Composite Plates
p.73

Fabrication and Properties of 1-3-2 Piezoelectric Composites
p.77

Fabrication and Properties of La-Manganite/SnO₂ Composites
p.81

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 123-125Electromagnetic Shielding Properties of Super...

Electromagnetic Shielding Properties of Super Fiber-Reinforced Composites

Abstract:

Electromagnetic shielding effect material is needed because electronic devices suffer electromagnetic interference. Otherwise, in many engineering designs such as antenna fairings, sonar cover and stealth aircraft, materials with good electromagnetic penetration are desired. High performance fiber-reinforced composites have high specific strength and mechanical properties, and there is therefore a need to develop an electronics enclosure with optimum shielding by using a combination of particular fiber reinforcements and a polymer matrix. This paper describes the development of high-performance fiber-reinforced composites that use four high strength fibers (super fibers), Dyneema SK60 (an ultra-high molecular weight polyethylene fiber), Zylon HM (poly-p-phenylenebenzobisoxazole fiber), Technora T-241J (aramid fiber) and Torayca T800HB (carbon fiber). These super fibers were fabricated by compression molding and their shielding effectiveness (SE) was tested. The results showed that the newly developed Dyneema fiber, Zylon fiber and Technora fiber composites exhibited low electromagnetic shielding properties of 1.3~2.3 dB at a frequency of 0.5~18 GHz. Furthermore, the Torayca fiber composite has high electromagnetic shielding properties of 10.2~20.7 dB at the same frequency. It is expected that these high-strength composites with optimum SE can be obtained by controlling the electromagnetic shielding properties from hybrid multi-fiber structures.