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Abstract

Smart textiles and wearable textile systems are up to now a growing research field, with a view to applications such as monitoring vital signs or environmental parameters through garments. These developments require new materials such as electroconductive textiles. As a result, research into screen printing of conductive silver inks onto textiles has emerged.

In this study, screen printing is used to print four kinds of silver-based conductive inks on a flexible foam and a nonwoven substrate. The screen printing method is chosen because it is a low cost and user friendly technique to obtain flexible and lightweight conductive fabrics. For the evaluation of the electrical properties the square resistance of the printed fabrics is measured after repeated dry cleaning cycles. The printed textiles studied here show good electrical properties after printing (< 0.05 Ω/□). However, after 60 dry cleaning cycles, the conductivity decreased considerably. Consequently, in order to improve washability, a protective polyurethane layer was put on top of the printed samples. In this case, the resistivity remained below 2.3 Ω/□ after 60 dry cleaning cycles.

Keywords

ink printing properties

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References

Meoli

May-Plumlee

. Interactive electronic textile development: A review of technologies. J Text Apparel Technol Manag 2002; 2: 39–49.

Drean

Schacher

Bauer

. A smart sensor for induced stress measurement in automotive textiles. J Text Inst 2007; 98: 523–531.

Carpi

De Rossi

. Electroactive polymer-based devices for e-textiles in biomedicine. IEEE Trans Inf Technol Biomed 2005; 9: 295–318.

Xue P, Tao X, Leun M-Y, et al. Electromechanical properties of conductive fibres, yarns and fabrics. X. Tao (ed.), 2005, pp. 81–104.

Gasana

Westbroek

Hakuzimana

. Electroconductive textile structures through electroless deposition of polypyrrole and copper at polyaramide surfaces. Surf Coat Technol 2006; 201: 3547–3551.

Merritt

Karaguzel

Kang

T-H

. Electrical characterization of transmission lines on nonwoven textile substrates. Mater Res Soc 2005; 870: 87–95.

Karaguzel

Merritt

Kang

. Flexible, durable printed electrical circuits. J Text Inst 2009; 100: 1–9.

Kim

Yoo

. Electrical charachterisation of screen – printed circuits on the fabric. IEEE Trans Adv Packag 2010; 33: 196–205.

Yang

Chuang

Lou

. Thick-film textile-based amperometric sensors and biosensors. R Soc Chem 2010; 135: 1230–1234.

10.

Merilampi

Laine-Ma

Ruuskanen

. The characterization of electrically conductive silver ink patterns on flexible substrates. Microelectron Reliab 2009; 49: 782–790.

11.

Hertleer

Van Langenhove

Rogier

. Printed textile antennas for off-body communication. Adv Sci Technol 2008; 60: 64–66.

12.

Earnest

. A control technology evaluation of state-of-the art, perchloroethylene dry-cleaning machines. Appl Occup Environ Hyg 2002; 17: 352–359.

13.

TSA. http://www.tsa-uk.org/ (Accessed 6 July 2010).

14.

Lohman

. A history of dry cleaners and sources of solvent releases from dry cleaning equipment. Environ Forensics 2002; 3: 35–58.

15.

MR-1 surface resistance meter, http://www.schuetzmesstechnik.de/de/pdf/Ken-MR1.pdf (accessed 6 July 2010).

16.

Vieroth

Löher Th, Seckel

. Stretchable circuit board technology and application, 2009. IEEE Computer Society. 2009, ISWC 2009, international symposium on wearable computers33–36.

17.

Van Der Pauw

. A method of measuring specific resistivity and Hall effect of disc of arbitrary shape. Philips Res Rep 1958; 13: 1–9.

18.

Banaszczyk

Mey

De, Schwarz

. The Van Der Pauw method for sheet resistance measurements of polypyrrole coated para aramide woven fabrics. J Appl Polym Sci 2010; 117: 2553–2558.

19.

Kalavagunta A and Weller RA. Accurate geometry factor estimation for the four point probe method using COMSOL multiphysics. 2005. COMSOL Multiphysics.

20.

Kalliala

Nousiainen

. Life cycle assessment environmental profile of cotton and polyester-cotton fabrics. AUTEX Res J 1999; 1: 8–20.

21.

Bidoki

McGorman

Lewis

. Inkjet printing of conductive patterns on textile fabrics. AATCC Rev 2005; 5: 11–11.

22.

Locher

. Technologies for system-on-textile, 1: Hartung-Gorre Verlag2006, pp. 165–165.

Dry cleaning of electroconductive layers screen printed on flexible substrates

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