Investigation of nozzle height control to improve dispenser printing of e-textiles
Investigation of nozzle height control to improve dispenser printing of e-textiles
Dispenser printing is a versatile way of manufacturing prototype and bespoke e-textiles that uses a robotically actuated nozzle to dispense pastes. Investigation of printing on a flat substrate, however, revealed that the nozzle must be kept between 50 and 200 µm above the material’s surface in order to print effectively. In order to maintain this clearance when printing on uneven materials, the surface topography of the substrate must be measured and compensated for. However, the accuracy of the laser displacement meter used here was reduced when measuring the translucent interface layer necessary when printing on textiles. Adding various concentrations of dye to the interface was explored. A single layer of interface with 20 mg of dye added per gram showed significantly improved results with an average error of 146 µm compared to the 550 µm for the clear interface. Crucially, the standard deviation in the error was only 31 µm, down from 101 µm, meaning that an offset could be applied to get measurements that would keep the nozzle’s clearance within the necessary 150 µm range.
Greig, Thomas Alastair
cabac522-b35a-4936-9451-4fa67a49c9e7
Torah, Russel
7147b47b-db01-4124-95dc-90d6a9842688
Yang, Kai
f1c9b81d-e821-47eb-a69e-b3bc419de9c7
8 January 2021
Greig, Thomas Alastair
cabac522-b35a-4936-9451-4fa67a49c9e7
Torah, Russel
7147b47b-db01-4124-95dc-90d6a9842688
Yang, Kai
f1c9b81d-e821-47eb-a69e-b3bc419de9c7
Greig, Thomas Alastair, Torah, Russel and Yang, Kai
(2021)
Investigation of nozzle height control to improve dispenser printing of e-textiles.
International Conference on the Challenges, Opportunities, Innovations and Applications in Electronic Textiles, Virtual.
03 - 04 Nov 2020.
5 pp
.
(doi:10.3390/proceedings2021068006).
Record type:
Conference or Workshop Item
(Poster)
Abstract
Dispenser printing is a versatile way of manufacturing prototype and bespoke e-textiles that uses a robotically actuated nozzle to dispense pastes. Investigation of printing on a flat substrate, however, revealed that the nozzle must be kept between 50 and 200 µm above the material’s surface in order to print effectively. In order to maintain this clearance when printing on uneven materials, the surface topography of the substrate must be measured and compensated for. However, the accuracy of the laser displacement meter used here was reduced when measuring the translucent interface layer necessary when printing on textiles. Adding various concentrations of dye to the interface was explored. A single layer of interface with 20 mg of dye added per gram showed significantly improved results with an average error of 146 µm compared to the 550 µm for the clear interface. Crucially, the standard deviation in the error was only 31 µm, down from 101 µm, meaning that an offset could be applied to get measurements that would keep the nozzle’s clearance within the necessary 150 µm range.
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Published date: 8 January 2021
Venue - Dates:
International Conference on the Challenges, Opportunities, Innovations and Applications in Electronic Textiles, Virtual, 2020-11-03 - 2020-11-04
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Local EPrints ID: 475311
URI: http://eprints.soton.ac.uk/id/eprint/475311
PURE UUID: 24974dff-f6be-47d6-8526-722bd3384d38
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Date deposited: 15 Mar 2023 17:35
Last modified: 12 Nov 2024 02:45
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Author:
Thomas Alastair Greig
Author:
Russel Torah
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