Reverse-offset printing for fabricating e-textiles
Reverse-offset printing for fabricating e-textiles
Printing electronics directly onto fabric to create e-textiles is a promising technology, but it is currently limited by the achievable printing resolution. The suitability of a bespoke reverse-offset printing system for use in printed e-textile devices has been explored because of the higher resolution it can achieve compared with alternatives such as screen printing, while still being scalable due to its roll-to-roll nature. The process has successfully achieved high-resolution patterns, as fine as 30 microns, on flexible polymer substrates suitable for lamination onto textiles and printing directly onto coated fabrics. The printing system comprises a gantry stage with a PDMS-coated roller and a base section that holds the cliché (patterned plate) and substrate. The system is controlled using LabVIEW software to ensure precise synchronization of the linear-stage movement and roller rotation. The results demonstrated a significant improvement in printing resolution compared to conventional methods such as screen and inkjet printing. This work showcases the potential of reverse-offset printing for fabricating advanced electronic devices on flexible substrates, creating new possibilities in the field of wearable technology.
Dai, Huanghao
214c9368-7f1b-41c9-b3e9-5715d1ba21c5
Torah, Russel
7147b47b-db01-4124-95dc-90d6a9842688
Beeby, Steve
e5f9fcd0-d872-4f28-9d66-821f90bc6ba3
16 January 2024
Dai, Huanghao
214c9368-7f1b-41c9-b3e9-5715d1ba21c5
Torah, Russel
7147b47b-db01-4124-95dc-90d6a9842688
Beeby, Steve
e5f9fcd0-d872-4f28-9d66-821f90bc6ba3
Dai, Huanghao, Torah, Russel and Beeby, Steve
(2024)
Reverse-offset printing for fabricating e-textiles.
Engineering Proceedings, 52 (1), [14].
(doi:10.3390/engproc2023052014).
Abstract
Printing electronics directly onto fabric to create e-textiles is a promising technology, but it is currently limited by the achievable printing resolution. The suitability of a bespoke reverse-offset printing system for use in printed e-textile devices has been explored because of the higher resolution it can achieve compared with alternatives such as screen printing, while still being scalable due to its roll-to-roll nature. The process has successfully achieved high-resolution patterns, as fine as 30 microns, on flexible polymer substrates suitable for lamination onto textiles and printing directly onto coated fabrics. The printing system comprises a gantry stage with a PDMS-coated roller and a base section that holds the cliché (patterned plate) and substrate. The system is controlled using LabVIEW software to ensure precise synchronization of the linear-stage movement and roller rotation. The results demonstrated a significant improvement in printing resolution compared to conventional methods such as screen and inkjet printing. This work showcases the potential of reverse-offset printing for fabricating advanced electronic devices on flexible substrates, creating new possibilities in the field of wearable technology.
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engproc-52-00014
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Published date: 16 January 2024
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Local EPrints ID: 500077
URI: http://eprints.soton.ac.uk/id/eprint/500077
ISSN: 2673-4591
PURE UUID: 7c4d2511-797c-4475-9751-dcb6ea79c70e
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Date deposited: 15 Apr 2025 16:31
Last modified: 22 Aug 2025 02:31
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Author:
Huanghao Dai
Author:
Russel Torah
Author:
Steve Beeby
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