功能性纺织技术 - 中国高校教材图书网
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书名: |
功能性纺织技术
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ISBN: | 9787566912848 |
条码: | |
作者: |
辛斌杰
相关图书
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装订: | 平装 |
印次: | 1-1 |
开本: | 大32开 |
定价: |
¥79.00
折扣价:¥71.10
折扣:0.90
节省了7.9元
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字数: |
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出版社: |
东华大学出版社 |
页数: |
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发行编号: | |
每包册数: |
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出版日期: |
2018-01-01 |
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内容简介: |
本书采用英文写作。首先,系统地介绍了功能性纺织品的定义、分类和应用,不同种类的功能性纤维和纱线,以及赋予纺织品功能性的先进后整理技术,包括化学和机械整理。其次,着重介绍了湿法纺丝和静电纺丝法制备的成纤聚合物,以及由这些成纤聚合物与功能性材料混合而成的复合材料,常用的功能性材料包括碳纳米管、二氧化钛和石墨烯等。另外,通过磁控溅射技术在聚砜酰胺和芳纶纤维表面沉积金属铝(Al)膜,以及在其他纺织材料表面沉积Al/SiO2多层薄膜和Ag/TiO2膜,均能制备功能性纺织材料。
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作者简介: |
辛斌杰,上海工程技术大学教授、硕士生导师,香港理工大学博导(兼),主要从事纺织科学与工程、计算机视觉、新材料及其交叉领域的教学与科研工作,主要研究方向为数字化纺织及功能性纺织材料开发
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章节目录: |
目录:
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 Supercritical 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
5.1 Introduction
5.2 Heat Responsive Textiles
5.2.1 Insulation Textiles
5.2.2 Cooling Textiles
5.3 Shape Memory Textiles
5.3.1 Shape Memory Alloy Textiles
5.3.2 Shape Memory Polymer Textiles
5.3.3 Shape Memory Gel Textiles
5.4 Color-changing Textiles
5.5 Waterproof Breathable Textiles
5.5.1 Densely Woven Fabrics
5.5.2 Membranes
5.5.3 Microporous Coatings
5.6 Electronic Textiles
5.6.1 Introduction
5.6.2 Application
References
Chapter 6 Nanospinning and Nanowrapping Technologies
6.1 Introduction
6.1.1 Fluid Movement Parameter Simulation of Wet-spinning
6.1.2 Electric Field Simulation of Electro-spinning
6.2 Preparation and Characterization of PSA Fiber by Wet-spinning and Electro-spinning
6.2.1 Experiments
6.2.2 Results and Discussion
6.2.3 Summary
6.3 Preparation and Characterization of Coaxial Electrostatic Spinning of PSA/PU Composite Fiber
6.3.1 Experiments and Simulation
6.3.2 Results and Discussion
6.3.3 Summary
6.4 Preparation and Characterization of Polyester Staple Yarn Wrapped with Electro-spun PSA Nanofiber
6.4.1 Experiments and Simulation
6.4.2 Results and Discussion
6.4.3 Summary
References
Chapter 7 Development of Conductive Polymer Materials
7.1 Introduction
7.1.1 Synthesis Method of PANI
7.1.2 Development of Conductive PANI Fiber
7.1.3 Application of PANI
7.2 Structure of Electrochromic Device
7.2.1 Transparent Conductor (TC)
7.2.2 Electrochromic Layer (EC)
7.2.3 Ion Storage Layer (ISL)
7.2.4 Ion Conductor (IC)
7.2.5 Models of Electrochromic Reaction
7.2.6 Classification and Selection of Electrochromic Material
7.2.7 Application of Electrochromic Technology
7.3 Preparation and Characterization of PANI Emulsion
7.3.1 Experimental
7.3.2 Results and Discussion
7.4 Preparation of PANI/PVA Composite Fiber by Electro-spinning
7.4.1 Experimental
7.4.2 Results and Discussion
7.5 Study on Electrochemical Behavior of PANI Composite
7.5.1 Experimental
7.5.2 Results and Discussion
7.6 Conclusions
References
Chapter 8 Development of Graphene Based Textiles
8.1 Introduction
8.1.1 Introduction of Graphene
8.1.2 Graphene Dip Coating Method
8.2 Preparation and Characterization of Graphene/PSA Composite Membrane
8.2.1 Experimental
8.2.2 Results and Discussion
8.2.3 Summary
8.3 Effects of Plasma Treatment on Properties of Graphene/PSA Composite Membrane
8.3.1 Experimental
8.3.2 Results and Discussion
8.3.3 Summary
8.4 Preparation and Characterization of Graphene/PSA Yarn
8.4.1 Experimental
8.4.2 Results and Discussion
8.4.3 Summary
8.5 Preparation and Characterization of Graphene/PSA Fabric
8.5.1 Experimental
8.5.2 Results and Discussion
8.5.3 Summary
References
Chapter 9 Sputtering Technology for Textiles
9.1 Introduction
9.1.1 Protective Fabric for Robot
9.1.2 Heat Insulating Material
9.1.3 High-temperature Protective Fabric
9.1.4 Finishing of High-temperature Protective Fabric
9.2 Preparation and Characterization of High-temperature Protective Fabric by Coating with Silicone
9.2.1 Experimental
9.2.2 Characterization
9.2.3 Results and Discussion
9.2.4 Summary
9.3 Study on Al-film Coated PSA via Magnetron Sputtering
9.3.1 Experimental
9.3.2 Results and Discussion
9.3.3 Summary
9.4 Study on Al-film Coated Aramid via Magnetron Sputtering
9.4.1 Experimental
9.4.2 Results and Discussion
9.4.3 Summary
9.5 Preparation and Characterization of Al/SiO2 Multi-layer Film Coated via Magnetron Sputtering
9.5.1 Experimental
9.5.2 Property Test and Characterization of Film
9.5.3 Results and Discussion
9.5.4 Summary
9.6 Preparation and Characterization of Ag/TiO2 Film Coated PSA Fabric via Magnetron Sputtering
9.6.1 Experimental
9.6.2 Characterization
9.6.3 ResultsandDiscussion
9.6.4 Summary
References
Chapter 10 Development of Functional PSA Nano-composites
10.1 Preparation of PSA Composite Fibers by Wet Spinning
10.1.1 Experimental
10.1.2 Results and Discussions
10.1.3 Summary
10.2 Preparation of PSA Fiber by Electro-spinning
10.2.1 Experimental
10.2.2 Results and Discussion
10.2.3 Summary
References
Chapter 11 Functionalization of Cellulose Based Materials
11.1 Introduction
11.1.1 Study on Antibacterial Treatment for Fiber
11.1.2 Research Status of Electro-spinning of Natural Cellulose
11.2 Activation and Dissolution of Natural Cellulose and Preparation of Regenerated Cellulose Membrane
11.2.1 Application of Regenerated Cellulose Membrane
11.2.2 Experimental
11.2.3 Results and Discussion
11.3 Preparation of Natural Cellulose/PAN Blended Nano-fiber
11.3.1 Electro-spinning Device
11.3.2 Experimental
11.3.3 Analysis of Difficulty in Electro-spinning
11.3.4 Analysis of Effects of Single-factor
11.4 Characterization of Cellulose/PAN Blended Nano-fiber
11.4.1 Test of Mechanical Properties
11.4.2 Thermogravimetric Analysis(TG and DTG)
11.4.3 Test and Analysis of Differential Scanning Calorimetry(DSC)
11.4.4 Analysis of Fourier Transform Infrared Spectroscopy(FTIR)
11.4.5 Test and Analysis of Dynamic Contact Angle
11.5 Antibacterial Treatment of Cellulose/PAN Nano-fiber
11.5.1 Purpose of Antibacterial Treatment
11.5.2 Process of Antibacterial Treatment
11.5.3 Experimental Equipment and Reagent
11.5.4 Preparation and Antibacterial Treatment of Cuprammonium
11.5.5 Analysis of Experimental Results
11.6 Conclusions
References
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