Influence of textile structure on the wearability of printed e-textiles

Abstract: To achieve durable printed circuits on textiles, it is necessary to print low-cost polymer films that interface the fabric with the printed circuit. The film smooths the surface of the fabric to enable the printing of thin and flexible conductive films on the fabric. When printed, the thickness of the polymer films can dominate the fabric and limit the flexibility of the printed e-textile. This paper investigates the reduction of the polymer film thickness for printed and wearable e-textiles by controlling the… Show more

“…When printing, there are also requirements placed on the substrate. It is desirable for the substrate to absorb some of the printed ink, in order to provide a more mechanically robust bond after curing [115]. Most printed electronic inks have curing temperatures between 100 and 150 °C, sustained for 5 -30 minutes [92].…”

Electrical Stimulation for Wound Healing: Opportunities for E-Textiles

“…When printing, there are also requirements placed on the substrate. It is desirable for the substrate to absorb some of the printed ink, in order to provide a more mechanically robust bond after curing [115]. Most printed electronic inks have curing temperatures between 100 and 150 °C, sustained for 5 -30 minutes [92].…”

Electrical Stimulation for Wound Healing: Opportunities for E-Textiles

A Review of Electrodes Developed for Electrostimulation

Effect of textile primer layer on screen printed conductors for e-textiles