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Characterisation of lithographically printed resistive strain gauges
This paper reports progress in sensor fabrication by the conductive lithographic film (CLF) printing process.Work describing strain-sensitive structures manufactured using a modified printing process and conductive inks is addressed. The performance of a “single-ink” strain-sensitive structure when...
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Format: | Default Article |
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2005
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Online Access: | https://hdl.handle.net/2134/8477 |
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author | Gareth I. Hay Peter S.A. Evans David J. Harrison Darren Southee George Simpson Paul M. Harrey |
author_facet | Gareth I. Hay Peter S.A. Evans David J. Harrison Darren Southee George Simpson Paul M. Harrey |
author_sort | Gareth I. Hay (7149290) |
collection | Figshare |
description | This paper reports progress in sensor fabrication by the conductive lithographic film (CLF) printing process.Work describing strain-sensitive structures manufactured using a modified printing process and conductive inks is addressed. The performance of a “single-ink” strain-sensitive structure when printed on six alternative substrates (GlossArt, PolyArt, Teslin, Mylar C, Melinex, and Kapton) is analyzed. Though not intending to compete with conventional gauges in high-tolerance measurement, the structures exhibit properties that indicate suitability for novel applications. |
format | Default Article |
id | rr-article-9348566 |
institution | Loughborough University |
publishDate | 2005 |
record_format | Figshare |
spelling | rr-article-93485662005-01-01T00:00:00Z Characterisation of lithographically printed resistive strain gauges Gareth I. Hay (7149290) Peter S.A. Evans (7149293) David J. Harrison (171106) Darren Southee (1251114) George Simpson (7150580) Paul M. Harrey (7150583) Design not elsewhere classified Mechanical engineering not elsewhere classified Conductive Lithographic Film (CLF) Offset lithography Printed sensors Printed strain gauges Design Practice and Management not elsewhere classified Mechanical Engineering This paper reports progress in sensor fabrication by the conductive lithographic film (CLF) printing process.Work describing strain-sensitive structures manufactured using a modified printing process and conductive inks is addressed. The performance of a “single-ink” strain-sensitive structure when printed on six alternative substrates (GlossArt, PolyArt, Teslin, Mylar C, Melinex, and Kapton) is analyzed. Though not intending to compete with conventional gauges in high-tolerance measurement, the structures exhibit properties that indicate suitability for novel applications. 2005-01-01T00:00:00Z Text Journal contribution 2134/8477 https://figshare.com/articles/journal_contribution/Characterisation_of_lithographically_printed_resistive_strain_gauges/9348566 CC BY-NC-ND 4.0 |
spellingShingle | Design not elsewhere classified Mechanical engineering not elsewhere classified Conductive Lithographic Film (CLF) Offset lithography Printed sensors Printed strain gauges Design Practice and Management not elsewhere classified Mechanical Engineering Gareth I. Hay Peter S.A. Evans David J. Harrison Darren Southee George Simpson Paul M. Harrey Characterisation of lithographically printed resistive strain gauges |
title | Characterisation of lithographically printed resistive strain gauges |
title_full | Characterisation of lithographically printed resistive strain gauges |
title_fullStr | Characterisation of lithographically printed resistive strain gauges |
title_full_unstemmed | Characterisation of lithographically printed resistive strain gauges |
title_short | Characterisation of lithographically printed resistive strain gauges |
title_sort | characterisation of lithographically printed resistive strain gauges |
topic | Design not elsewhere classified Mechanical engineering not elsewhere classified Conductive Lithographic Film (CLF) Offset lithography Printed sensors Printed strain gauges Design Practice and Management not elsewhere classified Mechanical Engineering |
url | https://hdl.handle.net/2134/8477 |