Application of Electrostatic Probe in Wool Fabric LTP Finishing  

作　　者：陈英 刘炳宏 

机构地区：[1]Beijing Institute of Fashion Technology,School of Materials Science & Engineering [2]Beijing Key Laboratory of Clothing Material RD and Assessment

出　　处：《Plasma Science and Technology》2009年第6期721-724,共4页等离子体科学和技术（英文版）

基　　金：supported by the Municipal Natural Science Foundation of Beijing of China(No.KZ200710016006)

摘　　要：By using a double electron probe the electron density and electron temperature were measured during the low temperature plasma （LTP） treatment of wool fabrics. The dependences of the electron density upon the power, pressure and the plasma-treating time was studied. The effects on the wool fabrics＇ shrinkage were studied. The results showed that the angle of the double electrostatic probe and the area of the treated fabrics had a strong impact on the density measurement. The felt-proof property of wool fabrics treated with an argon plasma was better than that with a nitrogen plasma. The gas, power and pressure of the LTP treatment all affected the electron density. The electron density increased with the increase in power and pressure. The electron density did not change significantly with treating time, in a certain range of both power and pressure of the LTP treatment.By using a double electron probe the electron density and electron temperature were measured during the low temperature plasma （LTP） treatment of wool fabrics. The dependences of the electron density upon the power, pressure and the plasma-treating time was studied. The effects on the wool fabrics＇ shrinkage were studied. The results showed that the angle of the double electrostatic probe and the area of the treated fabrics had a strong impact on the density measurement. The felt-proof property of wool fabrics treated with an argon plasma was better than that with a nitrogen plasma. The gas, power and pressure of the LTP treatment all affected the electron density. The electron density increased with the increase in power and pressure. The electron density did not change significantly with treating time, in a certain range of both power and pressure of the LTP treatment.

关 键 词：low temperature plasma （LTP） electrostatic probe electron density electron temperature SHRINKAGE 

分 类 号：TS195.6[轻工技术与工程—纺织化学与染整工程]