The smart textiles and wearable technology markets are expanding tirelessly, looking for efficient solutions to create long-lasting products. The research towards novel integration methods and increasing reliability of wearables and electronic textiles (e-textiles) is expanding. One obstacle to be tackled is the washability and the endurance to mechanical stresses in the washing machine. In this article, different layering of thermoplastic polyurethane (TPU) films and knit fabrics are used to integrate three different designs of stretchable copper-based meander tracks with printed circuit boards. The various combinations are washed according to the ISO 6330-2012 standard to analyze their endurance. Results suggest that one meander design wi...
Dataset supports: Komolafe, A. et al. (2019). Integrating Flexible Filament Circuits for E-Textile A...
E-textiles are specially engineered textiles that perform intelligent functions such as sensing and ...
In the course of two European projects the endurance behavior of stretchable electronic substrates a...
The smart textiles and wearable technology markets are expanding tirelessly, looking for efficient s...
The development of specific user-based wearable smart textiles is gaining interest. The reliability ...
Flexible electronic textiles are the future of wearable technology with a diverse application potent...
Abstract The field of electronic textiles (e-textiles) gained huge impact during the last decades. F...
Electronic textiles (e-textiles) and wearable computing have been emerging increasingly during the l...
In this paper we explore the wash-ability of conductive materials commonly use in creating traces a...
Washability is seen as one of the main obstacles that stands in the way of a wider market success of...
Electronically active yarn (E-yarn) pioneered by the Advanced Textiles Research Group of Nottingham ...
In this paper, the washability of wearable textronic (textile-electronic) devices has been studied. ...
Practical wearable e‐textiles must be durable and retain, as far as possible, the textile properties...
E-textiles and smart textiles have already reached a certain stage of development. Nowadays, smart t...
E-textiles that contain distributed electronic components have advantages for wearable technology in...
Dataset supports: Komolafe, A. et al. (2019). Integrating Flexible Filament Circuits for E-Textile A...
E-textiles are specially engineered textiles that perform intelligent functions such as sensing and ...
In the course of two European projects the endurance behavior of stretchable electronic substrates a...
The smart textiles and wearable technology markets are expanding tirelessly, looking for efficient s...
The development of specific user-based wearable smart textiles is gaining interest. The reliability ...
Flexible electronic textiles are the future of wearable technology with a diverse application potent...
Abstract The field of electronic textiles (e-textiles) gained huge impact during the last decades. F...
Electronic textiles (e-textiles) and wearable computing have been emerging increasingly during the l...
In this paper we explore the wash-ability of conductive materials commonly use in creating traces a...
Washability is seen as one of the main obstacles that stands in the way of a wider market success of...
Electronically active yarn (E-yarn) pioneered by the Advanced Textiles Research Group of Nottingham ...
In this paper, the washability of wearable textronic (textile-electronic) devices has been studied. ...
Practical wearable e‐textiles must be durable and retain, as far as possible, the textile properties...
E-textiles and smart textiles have already reached a certain stage of development. Nowadays, smart t...
E-textiles that contain distributed electronic components have advantages for wearable technology in...
Dataset supports: Komolafe, A. et al. (2019). Integrating Flexible Filament Circuits for E-Textile A...
E-textiles are specially engineered textiles that perform intelligent functions such as sensing and ...
In the course of two European projects the endurance behavior of stretchable electronic substrates a...