Plasma Technologies for Textile and Apparel

Basics of Plasma and Its Industrial Applications in Textiles Introduction Electric Breakdown of Gases Paschen’s Law for Gas Breakdown Discharge Current-Voltage Characteristics Plasma Surface Interactions Summary ReferencesAtmospheric Pressure Plasma Processing of Textiles at FCIPTIntroduction Status of Atmospheric Pressure Plasma in the World Non-Thermal Plasma at Atmospheric Pressure Influence of Process and Plasma Parameters and Scaling Up of System Plasma Textile Interaction Atmospheric Pressure Plasma Technologies Developed at Fcipt for Textiles Future Directions Summary ReferencesAtmospheric Pressure Plasma Polymerization of Hmdso on Different Textile Fibres and Their Studies Introduction ExperimentalCharacterization Results and Discussion Summary ReferencesIn-Situ Plasma Reactions for Hydrophobic Functionalization of Textiles Introduction Surface Properties and Wettability Challenges in Hydrophobic Functionalization of Textiles Using Atmospheric Pressure Glow Plasma Effect of Different Parameters on Plasma Reactions In-Situ Hydrophobic Functionalization of Textiles Using Gaseous Precursor In-Situ Hydrophobic Functionalization of Textile Using Liquid Precursor Summary ReferencesIn-Situ Plasma Reactions for Hydrophilic Functionalization of Textile Substrates Introduction Plasma Processing of Textiles Mechanism of Hydrophilic Finishing Generation and Characterization of Plasma Application of Plasma in Textile Chemical Processing Stability of Hydrophilic Finish Breaking Strength Summary ReferencesPlasma Processing of Textiles to Enhance Their Dyeing and Surface Properties Introduction Classification of PlasmasPlasma Interactions with Substrate Plasma Processing of Textiles Plasma Treatment for Enhancing Dyeing Plasma for Creating Anti-Bacterial and Anti-Flammable Fabrics Industry Relevance of Our Work Acknowledgement ReferencesNext to Skin Easy Care Woolens by Plasma and Other Eco-Friendly Technologies Introduction Fabric-Evoked Itch and Prickle Shrink Proofing Processes Future Trends Sources of Further Information ReferencesLow Pressure Air Plasma for Processing of Silk Textiles Introduction Classification of Silk Silk Formation and Properties Silk Wet Processing Technology Plasma Technology Materials and Methods Conclusion ReferencesRf Plasma Treatment of Muga Silk and Its Characterization Introduction Experimental Results and Discussion Industrial Scale-Up and Marketing Conclusion ReferencesCold Plasma for Dry Processing, Functionalization and Finishing of Textile Materials Introduction Principle of Cold Plasma Treatment of Textiles Low Temperature Plasma (LTP) Treatment of Textile Materials Current Situation of Plasma Technology in Textiles Characterization Advantages and Shortcomings of Plasma Technology Conclusions ReferencesNanotitania Synthesis and Its Integration in Textiles Using Plasma Technology Introduction Fabric Pre-Treatment by Plasma Methods of Nanomaterial Synthesis Nanotitania Synthesis and Its Application in Textiles at FCIPT Potential Hazards of Nanotitania for Human Skin Conclusion Acknowledgement ReferencesPlasma Textile Technology Status, Techno-Economics, Limitations and Industrial Usage Potential Introduction Technology Status Industrial Use Techno-Economics Other Applications Challenges and Opportunities Conclusions ReferencesIndex