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    • 10. 发明申请
    • TREATMENT OF FIBROUS MATERIALS USING ATMOSPHERIC PRESSURE PLASMA POLYMERIZATION
    • 使用大气压力等离子体聚合处理纤维材料
    • US20080107822A1
    • 2008-05-08
    • US11556130
    • 2006-11-02
    • Gary S. SelwynMatthew R. BarnesCaterina VidoliHeathcliff L. Vaz
    • Gary S. SelwynMatthew R. BarnesCaterina VidoliHeathcliff L. Vaz
    • H05H1/00B05B5/00
    • C23C16/50D06B19/00D06C29/00D06M10/10D06M14/18D06M15/277D21H19/16D21H19/32D21H23/44D21H25/04
    • An apparatus and method for plasma finishing of fibrous materials including paper and knitted, woven and non-woven fibrous substrates such that desired characteristics are imparted are described. The method includes depositing a monomer comprising at least one fluorocarbon monomer with chemical additives, as required, at atmospheric pressure onto the paper or knitted, woven or non-woven substrate; exposing the monomer on a single surface of the fibrous material to an inert gas, atmospheric-pressure plasma, thereby causing polymerization of the monomer species; and repeating this sequence using multiple sequential deposition and plasma discharge steps to create a layered surface having durability against abrasion for both water-based laundry methods and dry-cleaning methods, and normal wear, without affecting the feel, drape, appearance or breathability of the substrate material. The present method uses a high-power, continuously operating plasma that is 104 times more powerful than the prior art plasma sources utilized in the textile industry, and produces a durable finish with between 0.5 and 2 s of plasma exposure. This is sufficiently rapid to meet commercial fabric processing throughput, and repeated cleaning of the electrodes is not required.
    • 描述了赋予纤维材料的等离子体整理的装置和方法,包括纸和针织,机织和非织造纤维基材,从而赋予所需的特性。 该方法包括在大气压下将包含至少一种碳氟单体的单体与化学添加剂按需要沉积到纸或针织,机织或非编织基材上; 将单体在纤维材料的单个表面上暴露于惰性气体,大气压等离子体,从而引起单体物质的聚合; 并且使用多个顺序沉积和等离子体放电步骤重复该顺序,以产生具有耐水性的洗涤方法和干洗方法和正常磨损的耐磨性的层压表面,而不会影响鞋底的手感,悬垂性,外观或透气性 基材。 本发明的方法使用比在纺织工业中使用的现有技术的等离子体源强大10倍以上的大功率,连续工作的等离子体,并产生0.5秒和2秒之间的耐久光洁度 等离子体暴露 这足以快速满足商业织物加工产量,并且不需要反复清洁电极。