Conductive Stainless Thread (7Ω)

Conductive Stainless Thread (7Ω) is a flexible stainless‑steel fiber sewing thread designed for integrating electrical conductivity directly into fabric and textile structures. This conductive sewing material combines the flexibility of traditional thread with the electrical properties required for wearable electronics and smart textiles. The stainless fiber construction provides stable resistance, strong thermal performance, and durability under repeated handling. With a diameter of 0.5 mm and approximately 7Ω resistance per meter, the conductive textile thread enables reliable signal or low‑current power paths within garments, interactive clothing, and fabric‑based electronic assemblies.

Note: the thinner the wire, the more resistance it offers.

Figure: Conductive Stainless Thread

Low Resistance for Textile Circuits

Stainless‑steel fiber construction delivers approximately 7Ω resistance per meter, enabling dependable electrical conduction across stitched paths in fabric. This conductive sewing filament maintains consistent resistivity along its length, supporting stable signal transmission or low‑current power distribution. Such characteristics make the conductive textile wire suitable for integrating LEDs, touch circuits, and small electronic components directly into garments, prototypes, or fabric‑based interactive systems.

Excellent Heat Resistance and Durability

The stainless fiber conductor tolerates demanding thermal conditions with a working temperature capability up to 650°C and a melting point near 1350°C. High‑temperature tolerance allows the conductive thread to maintain structural and electrical stability during solder‑adjacent assembly environments or heated fabrication processes. Stainless material composition also provides strong corrosion resistance and mechanical durability compared with many polymer‑based conductive yarn alternatives.

Washable and Reusable for Wearable Projects

This conductive textile thread supports washable wearable electronics thanks to corrosion‑resistant stainless fibers and stable conductivity. Fabric circuits stitched with the thread remain functional after routine cleaning, supporting long‑term use in garments, gloves, or anti‑static clothing. The combination of flexibility and electrical performance allows reliable integration into smart textiles, interactive fashion projects, and experimental wearable prototypes.

Common uses include touchscreen gloves, anti‑static garments, wearable electronic circuits, anti‑static brushes, and fabric‑based LED lighting paths. The stainless conductive sewing wire also supports experimentation in interactive textiles, soft electronics prototypes, and educational wearable technology demonstrations.