Plasma technologies for textiles /

Plasma technologies present an environmentally-friendly and versatile way of treating textile materials in order to enhance a variety of properties such as wettability, liquid repellency, dyeability and coating adhesion. Recent advances made in commercially viable plasma systems have greatly increas...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: Textile Institute (Manchester, England)
Otros Autores: Shishoo, R.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge, England ; Boca Raton, Florida : Woodhead Publishing Limited : CRC Press, 2007.
Colección:Woodhead publishing in textiles.
Temas:
Plasma (Ionized gases) > Industrial applications.
Textile fabrics.
Textiles
Plasma (Gaz ionis�es) > Applications industrielles.
Textiles et tissus.
cloth.
TECHNOLOGY & ENGINEERING > Technical & Manufacturing Industries & Trades.
TECHNOLOGY & ENGINEERING > Textiles & Polymers.
Plasma (Ionized gases) > Industrial applications
Textile fabrics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Plasma technologies for textiles; Copyright; Contents; Contributor contact details; Introduction
  • The potential of plasma technology in the textile industry; What are plasmas?; Plasma reactors; Effect of plasma on fibres and polymers; Plasma finishing of textiles; Plasma systems for experimental and industrial processing of fabrics; Plasma technology for textile finishing: Barriers and challenges; About the book; Part I Plasma science and technology; 1The physics and chemistry of plasmas for processing textiles and other materials; 1.1 Introduction; 1.2 Gases; 1.3 Plasmas.
  • 1.4 Plasma chemistry1.5 Plasma-surface collisions; 1.6 Summary; 1.7 Bibliography; 2The diagnosis of plasmas used in the processing of textiles and other materials; 2.1 Introduction; 2.2 Discharge electrical characteristics; 2.3 Electrical plasma diagnostics; 2.4 Plasma mass spectrometry; 2.5 Optical emission spectroscopy; 2.6 References; 3Low-pressure cold plasma processing technology; 3.1 Introduction; 3.2 Low-pressure vacuum plasma technology; 3.3 Equipment for low-pressure vacuum plasma technology; 3.4 Plasma activation in the technical textile and nonwoven industries.
  • 3.5 Plasma deposition on nonwoven materials3.6 The economics of vacuum plasma treatment for fabrics and nonwovens; 3.7 Conclusions; 3.8 References; 4Atmospheric-pressure cold plasma processing technology; 4.1 Introduction; 4.2 Basic manufacturability needs from plasma technology; 4.3 Atmospheric-pressure plasma types for textile processing; 4.4 Atmospheric-pressure plasma equipment for textile processing; 4.5 Atmospheric-pressure plasma surface properties for textile products; 4.6 The atmospheric-pressure plasma audit; 4.7 References.
  • 5Corona and dielectric barrier discharge plasma treatment of textiles for technical applications5.1 Introduction to atmospheric-pressure plasma processes; 5.2 Special adaptations of DBD technology to textiles; 5.3 Plasma-induced surface activation of fibres; 5.4 Deposition of nano-layers by gas polymerisation; 5.5 Combination of DBD treatment and liquor deposition; 5.6 Future trends; 5.7 References; 6Nano-scale treatment of textiles using plasma technology; 6.1 Introduction; 6.2 Plasma technology for the textile industry; 6.3 Materials and methods; 6.4 Plasma cleaning.
  • 6.5 Plasma metallisation6.6 Plasma polymerisation; 6.7 Plasma co-polymerisation; 6.8 Future trends; 6.9 Sources of further information; 6.10 References; Part II Textile applications; 7Plasma treatment of textiles for water and oil repellency; 7.1 Introduction; 7.2 Requirement for water and oil repellency; 7.3 Theory and testing of water and oil repellency; 7.4 Current solutions for rendering textiles water and oil repellent; 7.5 Use of plasmas for imparting liquid repellency; 7.6 What the future holds; 7.7 References and sources of further information.

Ejemplares similares