The contact resistance force relationship of an intrinsically conducting polymer interface
The contact resistance force relationship of an intrinsically conducting polymer interface
Investigations on contact connector materials for different applications such as in the automotive industry have focused towards the increasing interest of using conducting polymers, as compared to conventional metallic contacts. The aim is to achieve overall improvements in performance as well as cost effectiveness. Currently, extrinsic conducting polymers (ECPs) are employed as conductive coats or adhesives at contact interfaces. However, frictional abrasion within the metal doped polymer (ECP) causes fretting corrosion, which leads to instability in the contact resistance. To overcome this, intrinsically conducting polymers (ICPs) are explored. Hemispherical contact coatings were fabricated using poly (3, 4-ethylenedioxythiopene) (PEDOT) or polyaniline/polyvinyl chloride (PANI/PVC) commodity blends. Contact resistances were taken using 4-wire resistance measurement techniques. The conductivities of in-house fabricated ICP contacts were found to be in the range of 10/sup -2/ S.cm/sup -1/. The response relating the change of contact resistance under varying compression force appeared to be repeatable with minimum deviation of 2%. The surface profiles of the ICP contacts were also recorded by an optical confocal system. The initial investigation results presented in this paper were used to evaluate and validate the hypothesis of employing ICP contacts to eliminate or minimize wearing and fretting effects.
fretting, intrinsically conducting polymer, surface profile, contact resistance, contact connector
0780384601
304-311
Lam, Liza
8e14ed9b-fbba-41c8-98ba-05076255e75e
Swingler, Jonathan
c6e2a49e-fadd-4f38-99f7-0ee1e2c92fac
McBride, John
d9429c29-9361-4747-9ba3-376297cb8770
Lam, Liza
8e14ed9b-fbba-41c8-98ba-05076255e75e
Swingler, Jonathan
c6e2a49e-fadd-4f38-99f7-0ee1e2c92fac
McBride, John
d9429c29-9361-4747-9ba3-376297cb8770
Lam, Liza, Swingler, Jonathan and McBride, John
(2004)
The contact resistance force relationship of an intrinsically conducting polymer interface.
In Proceedings of the 50th IEEE Holm Conference on Electrical Contacts and the 22nd International Conference on Electrical Contacts Electrical Contacts, 2004.
IEEE.
.
(doi:10.1109/HOLM.2004.1353134).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Investigations on contact connector materials for different applications such as in the automotive industry have focused towards the increasing interest of using conducting polymers, as compared to conventional metallic contacts. The aim is to achieve overall improvements in performance as well as cost effectiveness. Currently, extrinsic conducting polymers (ECPs) are employed as conductive coats or adhesives at contact interfaces. However, frictional abrasion within the metal doped polymer (ECP) causes fretting corrosion, which leads to instability in the contact resistance. To overcome this, intrinsically conducting polymers (ICPs) are explored. Hemispherical contact coatings were fabricated using poly (3, 4-ethylenedioxythiopene) (PEDOT) or polyaniline/polyvinyl chloride (PANI/PVC) commodity blends. Contact resistances were taken using 4-wire resistance measurement techniques. The conductivities of in-house fabricated ICP contacts were found to be in the range of 10/sup -2/ S.cm/sup -1/. The response relating the change of contact resistance under varying compression force appeared to be repeatable with minimum deviation of 2%. The surface profiles of the ICP contacts were also recorded by an optical confocal system. The initial investigation results presented in this paper were used to evaluate and validate the hypothesis of employing ICP contacts to eliminate or minimize wearing and fretting effects.
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More information
e-pub ahead of print date: 8 November 2004
Venue - Dates:
50th IEEE Holm Conference on Electrical Contacts and the 22nd International Conference on Electrical Contacts, , Seattle, United States, 2004-09-20 - 2004-09-23
Keywords:
fretting, intrinsically conducting polymer, surface profile, contact resistance, contact connector
Identifiers
Local EPrints ID: 22884
URI: http://eprints.soton.ac.uk/id/eprint/22884
ISBN: 0780384601
PURE UUID: 3be5b993-1643-4662-ab98-3e266cdb7662
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Date deposited: 28 Mar 2006
Last modified: 16 Mar 2024 02:37
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Author:
Liza Lam
Author:
Jonathan Swingler
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