Plasma treatment of wool fibres

P.Senthilkumar; N.Sandhya; R.Saravanakumar

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Plasma treatment of wool fibres

机译：等离子处理羊毛纤维

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In order to improve certain properties of fibres and textiles, they are modified by physical treatment. Physical modifications result in specific changes in the fibre's physical microstructure and its surface properties changing the functional and aesthetic features of fibres. One such physical modification is plasma treatment. Plasma is an ionized form of gas and can be created using a controlled level of AC or DC power and an ionizing gas medium. Plasma processes can be grouped into two main classes low-density and high-density - according to their electron temperature versus electron density. The advantage of such plasma treatments is that the modification turns out to be restricted in the uppermost layers of the substrate, thus not affecting the overall desirable bulk properties. Plasma treatment has an explosive increase in interest and use in industrial Applications as for example in medical, biomedical, automobile, electronics, semiconductor and textile industry. This has resulted in an increasing knowledge of the possibilities of this process regarding demands as wet ability, shrinkage resistance of wool, dye ability, printability, coating and wash ability of conventional and technical textile. This paper gives a brief overview on the various modifications incorporated in the cotton textile materials by the plasma treatment.

机译：为了改善纤维和纺织品的某些性能，可通过物理处理对其进行改性。物理改性会导致纤维物理微观结构发生特定变化，其表面性质会改变纤维的功能和美学特征。一种这样的物理修饰是等离子体处理。等离子体是气体的电离形式，可以使用受控水平的AC或DC电源和电离气体介质来产生。根据电子温度与电子密度的关系，等离子体过程可分为低密度和高密度两大类。这种等离子体处理的优点在于，该修饰被限制在基板的最上层中，因此不影响整体所需的整体性能。等离子体处理的兴趣和爆炸性增长及其在工业应用中的用途，例如在医疗，生物医学，汽车，电子，半导体和纺织工业中的应用。这就导致人们对这种方法的可能性有了越来越多的了解，这些需求涉及常规和工业用纺织品的湿润能力，抗羊毛收缩性，染色能力，可印刷性，涂层和洗涤能力。本文简要概述了通过等离子体处理将棉纺织材料混入的各种变体。

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来源
《Colourage》 |2015年第11期|41-47|共7页
作者
P.Senthilkumar; N.Sandhya; R.Saravanakumar;
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作者单位

PSG College of Technology, Peelamedu, Coimbatore - 641004;

PSG College of Technology, Peelamedu, Coimbatore - 641004;

PSG College of Technology, Peelamedu, Coimbatore - 641004;

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原文格式 PDF
正文语种 eng
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关键词
surface modification; plasma; wool fibre; anti-shrink; dyeability;

机译：表面改性;等离子体;羊毛纤维防缩染色性;

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专利

1. Sorption properties of wool fibres after plasma treatment [J] . R. Chvalinová J. Wiener Chemicke Listy . 2008,第s4期

机译：等离子处理后羊毛纤维的吸附特性
2. Research on the Enzymatic Treatment of Wool Fibres and Changes in Selected Properties of Wool [J] . Anna Kotlinska, Barbara Lipp-Symonowicz Fibres & textiles in Eastern Europe . 2011,第3期

机译：羊毛纤维的酶处理及羊毛部分性能变化的研究
3. Research on the Enzymatic Treatment of Wool Fibres and Changes in Selected Properties of Wool [J] . Kotlińska Anna, Lipp-Symonowicz Barbara Fibres & textiles in Eastern Europe . 2011,第3期

机译：羊毛纤维的酶处理及羊毛部分性能变化的研究
4. Effect of Atmospheric Pressure Plasma Treatment on the Wettability of Wool Fibre [C] . O. N. Hung, C. W. Kan, C. W. M. Yuen PMSE Symposia . 2009

机译：大气压等离子体处理对羊毛纤维润湿性的影响
5. Wool Fibres for the Sorption of Volatile Organic Compounds (VOCs) From Indoor Air [D] . Mansour, Elie. 2018

机译：用于吸附来自室内空气的挥发性有机化合物（VOC）的羊毛纤维
6. Wool fibre shedding and seasonal variation in wool growth. [O] . M. L. Ryder 1965

机译：羊毛纤维脱落和羊毛生长的季节性变化。
7. Metabolism of Cystine by Merino Sheep Genetically Different in Wool Production IV. Rates of Entry of Cystine Into Plasma, Measured With a Single Intravenous Injection of L- 35S Cystine, and the Subsequent Incorporation of 35S Into Wool Fibres [O] . AJ Williams 1976

机译：MERINO绵羊在羊毛生产IV的MERINO绵羊的胱氨酸代谢。用单一静脉注射L- 35s胱氨酸测量的胱氨酸进入血浆的速率，并随后将35s掺入羊毛纤维中

Plasma treatment of wool fibres

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