功能性紡織技術/紡織服裝高等教育“十三五”部委級規(guī)劃教材(英文版)
定 價:79 元
叢書名:紡織服裝高等教育“十三五”部委級規(guī)劃教材
- 作者:辛斌杰,陳卓明�����,劉巖 著
- 出版時間:2017/12/1
- ISBN:9787566912848
- 出 版 社:東華大學出版社
- 中圖法分類:TS1
- 頁碼:399
- 紙張:膠版紙
- 版次:1
- 開本:16開
為了能夠對功能性紡織品的進一步研究提供可靠有用的信息�,著的《功能性紡織技術/紡織服裝高等教育“十三五”部委級規(guī)劃教材(英文版)》致力于整合新的相關信息,并根據筆者所在課題組近十余年的研究成果�,對功能性紡織品的制備技術進行較為系統(tǒng)的介紹,如濕法紡絲���、靜電紡絲����、旋涂成膜和磁控濺射表面功能化等技術�!豆δ苄约徔椉夹g/紡織服裝高等教育“十三五”部委級規(guī)劃教材(英文版)》涉及范圍較廣,包含對功能性紡織品技術的系統(tǒng)總結和相關科學研究試驗的介紹�。希望通過這些內容引起本領域內技術類研究人員的關注,也希望《功能性紡織技術/紡織服裝高等教育“十三五”部委級規(guī)劃教材(英文版)》能夠激發(fā)其他非紡織領域的科學家的廣泛興趣����,期望他們能從中發(fā)現適合跨學科合作和未來學習的主題。
《功能性紡織技術/紡織服裝高等教育“十三五”部委級規(guī)劃教材(英文版)》開篇部分����,系統(tǒng)地介紹功能性紡織品的定義、分類和應用����,并介紹不同種類的功能性纖維和紗線,描述現階段賦予紡織品功能性的先進后整理技術���,包括化學和機械整理。此外�����,《功能性紡織技術/紡織服裝高等教育“十三五”部委級規(guī)劃教材(英文版)》著重介紹通過濕法紡絲和靜電紡絲制備的具有良好應用前景的成纖聚合物纖維,如聚苯胺(PANI)����、聚砜酰胺(PSA)等,以及由這些成纖聚合物纖維與功能性材料混合而成的復合材料���,常用的功能性材料包括碳納米管���、二氧化鈦和石墨烯等。另外���,通過磁控濺射技術在聚砜酰胺和芳綸纖維表面沉積金屬鋁(Al)膜��,以及在其他紡織材料表面沉積Al/SiO2多層薄膜和Ag/TiO2膜的方式��,均能制備功能性紡織材料����。
Chapter 1 Overview
1.1 Introduction
1.2 Definition of Functional Textiles
1.3 Classification of Functional Textiles
1.4 Classification of Finishing Technology for Functional Textiles
1.5 Scope of Application of Functional Textiles
1.6 Future of Functional Textiles
References
Chapter 2 Functional Fibers
2.1 Introduction
2.2 Flame Retardant Fibers
2.3 UV-resistant Fibers
2.3.1 Classification
2.3.2 Preparations and Applications
2.4 Hygiene and Medical Fibers
2.4.1 Typical Hygiene and Medical Functional Fibers
2.4.2 Applications of Hygiene and Medical Fibers
2.5 Breathable Fibers
2.6 Conductive Fibers
2.7 Shape Memory Fibers
2.8 Phase Change Fibers
References
Chapter 3 Functional Yarns
3.1 Introduction
3.2 Characteristics of Functional Yarns
3.2.1 Monofilament Yarn
3.2.2 Multifilament Yarn
3.2.3 Intermingled/Commingled Yarn
3.2.4 Tape Yarn
3.2.5 Staple Yarn
3.3 Conductive Yarns
3.3.1 Intrinsically Conductive Polymer Fiber/Yarn
3.3.2 Polymer Yarns Twisted/Embedded with Metallic Wires
3.3.3 Polymer Yarns with Metallic Coatings
3.4 Shape Memory Yarns
3.4.1 Shape Memory Alloy Yarn
3.4.2 Shape Memory Polymer Yarn
3.5 Antimicrobial Yarns
3.6 Auxetic Yarns
3.7 Anti-static Yarns
3.8 Soluble Yarns
3.9 Biodegradable Yarns
References
Chapter 4 Advanced Finishing Techniques
4.1 Introduction
4.2 Foam Finishing
4.2.1 Types of Foam
4.2.2 Preparation of Foam
4.2.3 Foam Generation
4.2.4 Foam Characterize
4.2.5 Application Systems of Foam
4.2.6 Practice of Foam Finishing
4.3 Plasma Treatment
4.3.1 Introduction
4.3.2 Classification of Plasma
4.3.3 Textile Treated by Plasma
4.3.4 Summary
4.4 Supercriticai Fluid Technology
4.4.1 Introduction
4.4.2 Application
4.5 Ultrasonic Technology
4.5.1 Introduction
4.5.2 Application
4.5.3 Summary
4.6 Sol-gel Technology for Functional Finishing
4.6.1 Introduction
4.6.2 Application
4.7 UV Treatment
4.7.1 Introduction
4.7.2 UV Treatment on Wool Fabric for Anti-felting Finishing
4.7.3 UV Treatment on Silk and Wool Fabric for Hydrophobic/Hydrophilic Finishing
4.8 Finishing Treatment for Improving Comfort
4.8.1 Thermal Regulation
4.8.2 Moisture Management
4.9 Enzyme
4.9.1 Introduction
4.9.2 Enzyme Classification
4.9.3 Textile Application
References
Chapter 5 Wearable Smart Textiles
Chapter 6 Nanospinning and Nanowrapping Technologies
Chapter 7 Development of Conductive Polymer Materials
Chapter 8 Development of Graphene Based Textiles
Chapter 9 Sputtering Technology for Textiles
Chapter 10 Development of Functional PSA Nano-composites
Chapter 11 Functionalization of Cellulose Based Materials
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