Overall Additive Manufacturing of Capacitive Sensors Integrated into Textiles: A Preliminary Analysis on Contact Pressure Estimation

Tiziano Fapanni; Raphael Rosa; Edoardo Cantù; Federica Agazzi; Nicola Francesco Lopomo; Giuseppe Rosace; Emilio Sardini

doi:10.5220/0012597000003657

Overall Additive Manufacturing of Capacitive Sensors Integrated into Textiles: A Preliminary Analysis on Contact Pressure Estimation

Tiziano Fapanni, Raphael Rosa, Edoardo Cantù, Federica Agazzi, Nicola Francesco Lopomo, Giuseppe Rosace, Emilio Sardini

2024

Abstract

Printed electronics approaches in deploying sensors offers several advantages over traditional methods, including their capability to be integrated into flexible substrates, including textiles. Additionally, printed sensors can be manufactured at relatively low cost and overall include sustainable materials, making them a more accessible option for a wider range of applications. Utilizing additive manufacturing techniques like stereolithography and aerosol jet printing, this work focused on creating fully printed capacitive pressure sensors within textiles. The sensors were designed as planar capacitors with micro-structured dielectrics to enhance linearity and measurement range. Three devices, incorporating 3D pyramidal structures, were produced and characterized under varying loads; the dielectric part was realized by using stereolithography and directly incorporating fabric on the top/bottom sections, whereas carbon-based ink was then deposited to produce the conductive plates and connection pads. Results indicated primarily capacitive behavior up to 10 MHz, with tunable capacitance affected by surface areas and air/resin ratio; hysteresis was also observed, revealing inherent non-linear behavior. These main findings provide important insights into the feasibility of the design and the additive manufacturing process. This innovation holds promise for applications in a variety of fields, including safety and sports.

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Paper Citation

in Harvard Style

Fapanni T., Rosa R., Cantù E., Agazzi F., Francesco Lopomo N., Rosace G. and Sardini E. (2024). Overall Additive Manufacturing of Capacitive Sensors Integrated into Textiles: A Preliminary Analysis on Contact Pressure Estimation. In Proceedings of the 17th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 1: BIODEVICES; ISBN 978-989-758-688-0, SciTePress, pages 195-200. DOI: 10.5220/0012597000003657

in Bibtex Style

@conference{biodevices24,
author={Tiziano Fapanni and Raphael Rosa and Edoardo Cantù and Federica Agazzi and Nicola Francesco Lopomo and Giuseppe Rosace and Emilio Sardini},
title={Overall Additive Manufacturing of Capacitive Sensors Integrated into Textiles: A Preliminary Analysis on Contact Pressure Estimation},
booktitle={Proceedings of the 17th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 1: BIODEVICES},
year={2024},
pages={195-200},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0012597000003657},
isbn={978-989-758-688-0},
}

in EndNote Style

TY - CONF

JO - Proceedings of the 17th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 1: BIODEVICES
TI - Overall Additive Manufacturing of Capacitive Sensors Integrated into Textiles: A Preliminary Analysis on Contact Pressure Estimation
SN - 978-989-758-688-0
AU - Fapanni T.
AU - Rosa R.
AU - Cantù E.
AU - Agazzi F.
AU - Francesco Lopomo N.
AU - Rosace G.
AU - Sardini E.
PY - 2024
SP - 195
EP - 200
DO - 10.5220/0012597000003657
PB - SciTePress