Advanced search
Publication Cover
The Journal of The Textile Institute Volume 111, 2020 - Issue 12
Submit an article Journal homepage
742
Views
31
CrossRef citations to date
0
Altmetric
Research Articles

Improving the washability of smart textiles: influence of different washing conditions on textile integrated conductor tracks

Sigrid RotzlerFraunhofer IZM (Institute for Reliability and Microintegration), Berlin, Germany; Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-6364-655XView further author information
ORCID Icon,
Christine KallmayerFraunhofer IZM (Institute for Reliability and Microintegration), Berlin, Germany; View further author information
,
Christian DilsFraunhofer IZM (Institute for Reliability and Microintegration), Berlin, Germany; ORCID Iconhttp://orcid.org/0000-0003-4533-2394View further author information
ORCID Icon,
Malte von KrshiwoblozkiFraunhofer IZM (Institute for Reliability and Microintegration), Berlin, Germany; View further author information
,
Ulrich BauerUniversity of Applied Sciences Berlin HTW, Berlin, Germany; View further author information
&
Martin Schneider-RamelowMicroperipheric Center, Technical University Berlin, Berlin, GermanyView further author information
Pages 1766-1777 | Received 23 Oct 2019, Accepted 08 Feb 2020, Published online: 25 Feb 2020

References

  • Abeliotis, K., Amberg, C., & Candan, C. (2016). Trends in laundry by 2030. H&PC Today, 10(5), 22–28. doi:10.1016/j.fos.2015.11.023
  • Balsamo, D., Merrett, G. V., & Zaghari, B. (2017). Wearable and autonomous computing for future smart cities: Open challenges. In: 25th international conference on software, telecommunications and computer networks. Split, Croatia, New York: IEEE. doi:10.23919/SOFTCOM.2017.8115596
  • Bisenius, B. (2017). Product safety of the internet of things. IEEE Consumer Electronics Magazine, 6(3), 137–139. doi:10.1109/MCE.2017.2685018
  • Chedid, M. (2010). Wearable systems in harsh environments - Realizing new architectural concepts (PhD thesis). Linköping University, Sweden.
  • Chen, M., Ma, Y., Li, Y., Wu, D., Zhang, Y., & Youn, C.-H. (2017). Wearable 2.0: Enabling Human-Cloud Integration in next Generation Healthcare Systems. IEEE Communications Magazine, 55(1), 54–61. doi:10.1109/MCOM.2017.1600410CM
  • Cherenack, K., & van Pieterson, L. (2012). Smart textiles: Challenges and opportunities. Journal of Applied Physics, 112(9), 091301. doi:10.1063/1.4742728.
  • Dalsgaard, C., & Sterrett, R. (2014). White paper on smart textile garments and devices: A market overview of smart textile wearable technologies. Aarhus, Denmark: Whitepaper.
  • Daniel, I. H., Umar, I., Kure, N., & Anderson Kassimu, A. (2017). Washable stitched transmission line for wearable applications. International Journal of Innovative Research in Sciences, Engineering and Technology, 6(8), 15527–15533.
  • De Acutis, A., & De Rossi, D. (2017). e-Garments: Future as “second skin”?. In S. Schneegass & O. Amft (Eds.), Smart textiles – Fundamentals, design, interaction (1st ed., pp. 383–396). Cham: Springer International Publishing AG.
  • Decaens, J., & Vermeersch, O. (2018). Specific testing for smart textiles. In P. Dolez, O. Vermeersch, & V. Izquierdo (Eds.). Advanced characterization and testing of textiles (1st ed., pp. 351–374). Cambridge: Elsevier Ltd. doi:10.1016/B978-0-08-100453-1.00013-1.
  • Dils, C., Werft, L., Walter, H., Zwanzig, M., von Krshiwoblozki, M., & Schneider-Ramelow, M. (2019). Investigation of the mechanical and electrical properties of elastic textile/polymer composites for stretchable electronics at quasi-static or cyclic mechanical loads. Materials, 12, 3599. doi:10.3390/ma12213599
  • DIN CEN/TR 16928. (2011). Textilien und textile Produkte – Intelligente Textilien – Definitionen, Klassifizierung, Anwendung und Normungsbedarf. Berlin: Beuth Verlag.
  • Dunne, L. (2004). The design of wearable technology: Addressing the human-device interface through functional apparel design (Master thesis). Cornell University, USA.
  • Easter, P. E., Cinnamon, M., & Baker, E. (2013). Assessing the impact of wash water temperature, detergent type and laundering platform on basic clothing attributes. In American Association of Textile Colorists & Chemists International Conference, Greenville, SC, USA. Durham, NC: AATCC.
  • European Commission. (2016). Smart wearables: Reflection and orientation paper. Report. Belgium: European Commission. Retrieved from https://ec.europa.eu/digital-single-market/en/news/european-commission-seeks-input-reflection-and-orientation-paper-smart-wearables
  • Gemperle, F., Kasabach, C., & Stivoric, J. (1998). Design for wearability. In Second international symposium on wearable computers ISWC, Pittsburgh, PA, USA. New York: IEEE. doi:10.1109/ISWC.1998.729537
  • Ginetex. 2019. Pflegesymbole. Retrieved from https://ginetex.de/pflegekennzeichnung/pflegesymbole/
  • Gonçalves, C., Ferreira da Silva, A., Gomes, J., & Simoes, R. (2018). Wearable E-textile technologies: A review on sensors, actuators and control elements. Inventions, 3(1), 13–14. doi:10.3390/inventions3010014
  • Gupta, D. (2011). Functional clothing – Definition and classification. Indian Journal of Fibre & Textile Research, 36(4), 321–326.
  • Kierstein, T. (2013). The future of smart-textiles development: New enabling technologies, commercialization and market trends. In T. Kierstein (Ed.), Multidisciplinary know-how for smart-textile developers (1st ed., pp. 1–22). Cambridge: Woodhead Publishing Limited. doi:10.1533/9780857093530.1
  • Köhler, A. R., Hilty, L. M., & Bakker, C. (2011). Prospective impacts of electronic textiles on recycling and disposal. Journal of Industrial Ecology, 15(4), 496–511. doi:10.1111/j.1530-9290.2011.00358.x
  • Kotb, N. A. (2012). Changes in knitted cotton/polyester fabric characteristics due to domestic laundering. Journal of American Science, 8(5), 677–682.
  • Kromer, R. (2008). Smart clothes - Ideengenerierung, Bewertung und Markteinführung (PhD thesis). GWV Fachverlage GmbH, Wiesbaden.
  • Leutheuser, H., Lang, N. R., Gradl, S., Struck, M., Tobola, A., Hofmann, C., Anneken, L., et al. (2017). Textile integrated wearable technologies for sports and medical applications. In S. Schneegass & O. Amft (Eds.). Smart textiles - Fundamentals, design, interaction (1st ed.; , pp. 359–382). Cham: Springer International Publishing AG.
  • Li, Q., & Tao, X. M. (2014). Three-dimensionally deformable, highly stretchable, permeable, durable and washable fabric circuit boards. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 470(2171), 1–22. doi:10.1098/rspa.2014.0472
  • Linz, T. (2012). Analysis of failure mechanisms of machine embroidered electrical contacts and solutions for improved reliability (PhD thesis). Universiteit Gent, Netherlands,
  • Linz, T., Vieroth, R., Dils, C., Koch, M., Braun, T., Becker, K. F., … Hong, S. M. (2008). Embroidered interconnections and encapsulation for electronics in textiles for wearable electronics applications. Advances in Science and Technology, 60, 85–94. (2008). doi:10.4028/www.scientific.net/AST.60.85
  • Linz, T., von Krshiwoblozki, M., Walter, H., & Foerster, P. (2012). Contacting electronics to fabric circuits with nonconductive adhesive bonding. Journal of the Textile Institute , 103(10), 1139–1150. doi:10.1080/00405000.2012.664867
  • Loriga, G. (2014). Standardization Roadmap for Smart Textiles. Report. Belgium: Susta-Smart.
  • Lymberis, A. (2004). Research and development of smart wearable health applications: The challenge ahead. In A. Lymberis & D. de Rossi (Eds.), Wearable eHealth systems for personalized health management (1st ed., E-Book; pp. 155–161). Amsterdam: IOS Press.
  • Nugroho, J., & Beilharz, K. (2010). Understanding and evaluating user centered design in wearable expressions. In Conference on New Interfaces for Musical Expressions, Sydney, Australia (pp. 327–330). Sydney: NIME.
  • Ohnemus, J., & Rasel, F. (2018). FashionTech - Smart textiles. Report. Germany: Zentrum für Europäische Wirtschaftsforschung GmbH. Retrieved from https://www.zew.de/de/das-zew/aktuelles/smart-textiles-versprechen-grosses-wachstumspotenzial-in-deutschland/
  • Pavlinic, D. (2017). The potential of wearables related in smart textiles. Sigurnost, 59(3), 219–226. doi:10.31306/s.59.3.3
  • Qiu, C., & Hu, Y. (2015). The review of smart clothing design research based on the concept of 3F + 1I. International Journal of Business and Social Science, 6(1), 199–208.
  • Rotzler, S. (2019). Einfluss der Sinnerschen Faktoren sowie der textilen Substrate auf die Waschbarkeit textilintegrierter Leiterbahnen (Master thesis). Hochschule für Technik und Wirtschaft Berlin, Germany.
  • Schmidt, H. (1960). Untersuchung über die Wäschebewegung in Trommelwaschmaschinen unter der besonderen Berücksichtigung der Reinigungswirkung und des Faserabriebs (1st ed.). Köln: Westdeutscher Verlag.
  • Schneegass, S., & Amft, O. (2017). Introduction to Smart Textiles. In S. Schneegass & O. Amft (Eds.), Smart textiles - Fundamentals, design, interaction (1st ed.; pp. 1–15). Cham: Springer International Publishing AG.
  • Schwarz, A. (2011). Electro-conductive yarns: Their development, characterization and applications (Phd thesis). Universiteit Gent, Netherlands.
  • Sinner, H. (1960). Über das Waschen mit Haushaltswaschmaschinen. Hamburg: Haus + Heim Verlag,
  • Stoppa, M., & Chiolerio, A. (2014). Wearable electronics and smart textiles: A critical review. Sensors, 14(7), 11957–11992. doi:10.3390/s140711957
  • Truscott, L., Tan, E., & Opperskalski, S. 2018. Preferred fiber materials market report 2017. Report, Textile exchange. Retrieved from https://textileexchange.org/downloads/2017-preferred-fiber-materials-market-report/
  • Van Heek, J., Schaar, A. K., & Trevisan, B. (2014). User requirements for wearable smart textiles. Does the usage context matter (medical vs. sports)?. In 8th international conference on pervasive computing technologies for healthcare, Oldenburg, Germany (pp. 205–208). Brussels: ICST. doi:10.13140/2.1.1201.7925
  • Vervust, T. (2013). Stretchable and washable electronics for embedding in textiles (PhD thesis). Universiteit Gent, Netherlands.
  • Wagner, G. (2017). Waschmittel - Chemie, Umwelt, Nachhaltigkeit (5th ed.). Weinheim: Viley-VCH Verlag & Co. KGaA.
  • We, M., & Hearle, J. (2008). Physical properties of textile fibers (4th ed.). Cambridge: Woodhead Publishing,
  • Wfk Testgewebe GmbH. 2018. Reference and standard fabrics. Retrieved from http://testgewebe.de/en/products/reference-and-standard-fabrics/
  • Zeagler, C., Audy, S., Gilliand, S., Starner, T. (2013). Can i wash it?: The effect of washing conductive materials used in making textile based wearable electronic interface. In: 17th international symposium on wearable computers, Zürich, Switzerland. New York: IEEE. doi:10.1145/2493988.2494344

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.