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Journal article 1394 views 208 downloads

Deposition of High Conductivity Low Silver Content Materials by Screen Printing

Eifion Jewell Orcid Logo, Simon Hamblyn, Tim Claypole Orcid Logo, David Gethin Orcid Logo

Coatings, Volume: 5, Issue: 2, Pages: 172 - 185

Swansea University Authors: Eifion Jewell Orcid Logo, Simon Hamblyn, Tim Claypole Orcid Logo, David Gethin Orcid Logo

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DOI (Published version): 10.3390/coatings5020172

Abstract

A comprehensive experimental investigation has been carried out into the role of film thickness variation and silver material formulation on printing capability in the screen printing process. A full factorial experiment was carried out where two formulations of silver materials were printed through...

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Published in: Coatings
ISSN: 2079-6412 2079-6412
Published: 2015
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URI: https://cronfa.swan.ac.uk/Record/cronfa25654
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spelling 2021-01-07T16:18:02.8392640 v2 25654 2016-01-15 Deposition of High Conductivity Low Silver Content Materials by Screen Printing 13dc152c178d51abfe0634445b0acf07 0000-0002-6894-2251 Eifion Jewell Eifion Jewell true false bba3b0d7286855a0a1da5c751f14cc71 Simon Hamblyn Simon Hamblyn true false 7735385522f1e68a8775b4f709e91d55 0000-0003-1393-9634 Tim Claypole Tim Claypole true false 20b93675a5457203ae87ebc32bd6d155 0000-0002-7142-8253 David Gethin David Gethin true false 2016-01-15 MECH A comprehensive experimental investigation has been carried out into the role of film thickness variation and silver material formulation on printing capability in the screen printing process. A full factorial experiment was carried out where two formulations of silver materials were printed through a range of screens to a polyester substrate under a set of standard conditions. The materials represented a novel low silver content (45%–49%) polymer material and traditional high silver content (65%–69%) paste. The resultant prints were characterised topologically and electrically. The study shows that more cost effective use of the silver in the ink was obtained with the low silver polymer materials, but that the electrical performance was more strongly affected by the mesh being used (and hence film thickness). Thus, while optimum silver use could be obtained using materials with a lower silver content, this came with the consequence of reduced process robustness. Journal Article Coatings 5 2 172 185 2079-6412 2079-6412 12 5 2015 2015-05-12 10.3390/coatings5020172 This is an open access article distributed under the Creative Commons Attribution License (CC BY) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. COLLEGE NANME Mechanical Engineering COLLEGE CODE MECH Swansea University 2021-01-07T16:18:02.8392640 2016-01-15T15:18:41.7236863 Faculty of Science and Engineering School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering Eifion Jewell 0000-0002-6894-2251 1 Simon Hamblyn 2 Tim Claypole 0000-0003-1393-9634 3 David Gethin 0000-0002-7142-8253 4 0025654-15072016123216.pdf Jewell2015.pdf 2016-07-15T12:32:16.3030000 Output 1118329 application/pdf Version of Record true 2016-07-15T00:00:00.0000000 false
title Deposition of High Conductivity Low Silver Content Materials by Screen Printing
spellingShingle Deposition of High Conductivity Low Silver Content Materials by Screen Printing
Eifion Jewell
Simon Hamblyn
Tim Claypole
David Gethin
title_short Deposition of High Conductivity Low Silver Content Materials by Screen Printing
title_full Deposition of High Conductivity Low Silver Content Materials by Screen Printing
title_fullStr Deposition of High Conductivity Low Silver Content Materials by Screen Printing
title_full_unstemmed Deposition of High Conductivity Low Silver Content Materials by Screen Printing
title_sort Deposition of High Conductivity Low Silver Content Materials by Screen Printing
author_id_str_mv 13dc152c178d51abfe0634445b0acf07
bba3b0d7286855a0a1da5c751f14cc71
7735385522f1e68a8775b4f709e91d55
20b93675a5457203ae87ebc32bd6d155
author_id_fullname_str_mv 13dc152c178d51abfe0634445b0acf07_***_Eifion Jewell
bba3b0d7286855a0a1da5c751f14cc71_***_Simon Hamblyn
7735385522f1e68a8775b4f709e91d55_***_Tim Claypole
20b93675a5457203ae87ebc32bd6d155_***_David Gethin
author Eifion Jewell
Simon Hamblyn
Tim Claypole
David Gethin
author2 Eifion Jewell
Simon Hamblyn
Tim Claypole
David Gethin
format Journal article
container_title Coatings
container_volume 5
container_issue 2
container_start_page 172
publishDate 2015
institution Swansea University
issn 2079-6412
2079-6412
doi_str_mv 10.3390/coatings5020172
college_str Faculty of Science and Engineering
hierarchytype
hierarchy_top_id facultyofscienceandengineering
hierarchy_top_title Faculty of Science and Engineering
hierarchy_parent_id facultyofscienceandengineering
hierarchy_parent_title Faculty of Science and Engineering
department_str School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering
document_store_str 1
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description A comprehensive experimental investigation has been carried out into the role of film thickness variation and silver material formulation on printing capability in the screen printing process. A full factorial experiment was carried out where two formulations of silver materials were printed through a range of screens to a polyester substrate under a set of standard conditions. The materials represented a novel low silver content (45%–49%) polymer material and traditional high silver content (65%–69%) paste. The resultant prints were characterised topologically and electrically. The study shows that more cost effective use of the silver in the ink was obtained with the low silver polymer materials, but that the electrical performance was more strongly affected by the mesh being used (and hence film thickness). Thus, while optimum silver use could be obtained using materials with a lower silver content, this came with the consequence of reduced process robustness.
published_date 2015-05-12T03:30:40Z
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