The effect of fabric parameters such as type of weave and pick density on electrical surface resistivity of polyaniline coated fabric was studied. The fabric structure greatly influences the fabric electrical resistivity. Among the samples tested the twill structure with high picks per inch shows lower surface resistivity. The plain structure which has more interlacement points shows higher resistivity.
HansH., Toward Real Applications of Conductive Polymers, Synthetic Metals, Vol. 71, PP. 2139–2142, 1995
2.
HakanssonEva, Characterization of Conducting Polymer Coated Synthetic Fabrics for Heat Generation, Synthetic Metals, Vol. 144, PP. 21–28, 2004
3.
ChenH.C., Comparison of Electromagnetic Shielding Effectiveness Properties of Diverse Conductive Textiles Via Various Measurement Techniques, Journal of Materials and Processing Technology, Vol. 192–193, PP. 549–554, 2007
4.
KimBohwon, Electrical and Morphological Properties of PP and PET Conductive Polymer Fibers, Synthetic Metals, Vol. 146, PP. 167–174, 2004
5.
MartinsCristiane Reis, and De PaoliMarco-Aurelio, Antistatic Thermoplastic Blend of Polyaniline and Polystyrene Prepared In a Double-Screw Extruder, European Polymer Journal, Vol. 41, PP. 2867–2873, 2005
6.
PudAlexander, Some Aspects of Preparation Methods And Properties of Polyaniline Blends and Composites With Organic Polymers, Progress In Polymer Science, Vol. 28, PP. 1701–1753, 2003
7.
HakanssonEva, AmietAndrew, and KaynakAkif, Electromagnetic Shielding Properties of Polypyrrole/Polyester Composites In The 1–18 Ghz Frequency Range, Synthetic Metals, Vol. 156, PP. 917–925, 2006
8.
DhawanS.K., SingN., VenkatachalamS., Shielding Effectiveness of Conducting Polyaniline Coated Fabrics at 101 Ghz, Synthetic Metals, Vol. 125, PP. 389–393, 2002.
9.
DhawanS. K., SinghN., and RodriguesD., Electromagnetic Shielding Behaviour of Conducting Polyaniline Composites, Science and Technology of Advanced Materials, Vol. 4, PP. 105–113, 2003
10.
Geetha, Polyaniline Reinforced Conducting E-Glass Fabric using 4-Chloro-3-Methyl Phenol as Secondary Dopant for the Control of Electromagnetic Radiations, Composites Science and Technology, Vol. 65, PP. 973–980, 2005
11.
CaoYong, Influence of Chemical Polymerization Conditions on the Properties of Polyaniline, Polymer, Vol. 30, PP. 2305–2311, 1989
12.
FerenetsMarju, and HarlinAli, Chemical In Situ Polymerization of Polypyrrole On Poly(Methyl Metacrylate) Substrate, Thin Solid Films, Vol. 515, PP. 5324–5328, 2007
13.
ChildA.D., and KuhnH.H., Enhancement of the Thermal Stability of Chemically Synthesized Polypyrrole, Synthetic Metals, Vol. 84, PP. 141–142, 1997
14.
KutanisS., The Conductive Polyaniline/Poly (ethyleneterephthalate) composite Fabrics, Composites Part A: Applied Science and Manufacturing, Vol. 38, PP. 609–614, 2007
