Electrically conductive polyethersulphone (pes) composites containing carbon fibres, nickel fibres, stainless steel fibres or aluminium flakes at various volume fractions up to 40% were fabricated and tested. For electromagnetic interference (emi) shielding effectiveness > 50 dB, the minimum filler volume fraction was 40% for carbon fibres of length 200 or 400 μm, 20% for nickel or stainless steel fibres, and 30% for aluminium flakes. The tensile strength first increased and then decreased with increasing filler content, such that the highest tensile strength occurred at 30 volume% (vol%) for carbon fibres (of length 200 or 400 μm) as the filler and at 10 vol% for nickel or stainless steel fibres. However, for carbon fibres (of length 100 μm) and aluminium flakes, the tensile strength increases up to at least 40 vol%. The best overall performance was provided by aluminium flakes at 40 vol%; the resistivity was 7 × 10−5 Ω cm, the emi shielding effectiveness was > 50 dB and tensile strength was 67 MPa. The resistivity of the aluminium flake composites was not affected by heating in air at 140°C for up to at least 144 h.
[1]
A. R. Blythe,et al.
Electrical properties of polymers
,
1979
.
[2]
J. Milewski.
The Combined Packing of Rods and Spheres in Reinforcing Plastics
,
1978
.
[3]
J. C. H. Affdl,et al.
The Halpin-Tsai Equations: A Review
,
1976
.
[4]
Zvi Hashin,et al.
THEORY OF COMPOSITE MATERIALS
,
1970
.
[5]
Isaac M Daniel,et al.
Experimental Mechanics of Fiber Reinforced Composite Materials
,
1982
.
[6]
Gregory M. Glenn,et al.
Fiber-reinforced composites
,
1988
.
[7]
S. Abrate.
The Mechanics of Short Fiber-Reinforced Composites: A Review
,
1986
.
[8]
A. Pazur,et al.
Conductive PVC composites: Part 1. Physical and electrical properties
,
1982
.