Woven Fabrics-a Static Electricity Generation-a Principle leh Influencing Factors te

Nov 14, 2025

Message pakhat dah la .

Woven fabrics hi warp leh weft yarn atanga siam a ni a, an static electricity generation hi fiber material leh environment condition nen a inzawm tlat a ni:

 

1. Fiber Composition: Natural fiber (cotton, linen, wool) te hian moisture absorption chak tak an nei a, awlsam takin charge an conduct a, static electricity an khawlkhawm tlem hle bawk synthetic fiber (polyester, nylon, etc.) te hian moisture absorption tha lo, resistance sang tak an nei a, friction hnuah pawh awlsam takin charge an vawng reng thei bawk. *Textile Research Journal* (2020) atanga data atanga a lan dan chuan polyester puan a friction hnua static voltage chu 2000V aia sang a ni thei a, cotton fabric erawh chu 500V hnuai lam a ni tlangpui thung.

 

2. Ambient Humidity: Air humidity 40% hnuai lam a nih chuan fiber surface-ah conductive water film siam a harsa a, static effect nasa takin a tichak a ni. Experiment-ah chuan (ASTM D423 standard hmangin) humidity 60% a thlen chuan polyester fabric-a static voltage chu 65% velin a tlahniam tih hmuhchhuah a ni.

 

3. Friction Frequency: Friction chak tak (kal laia thawmhnaw puan nena inhnaih ang chi) hian charge transfer a ti chak hle. Tightly woven fabrics (poplin leh canvas ang chi) te hi loosely woven fabrics (gauze ang chi) aiin static electricity an nei tam zawk a, a chhan chu an yarn contact surface lian zawk vang a ni.

Inquiry thawn rawh .
i mumang a ni a, kan design a ni
Ram pawn lama market-ah "high-quality fabrics" tam zawk rawn luhtir kan tum a ni.
min rawn biak theih reng e