●【Fundamentals of Textile Yarns】 1.1 Introduction 1 2 Classification of Textile Yarns 1.3 Raw Materials and Market 1.4 Development of Ring Spinning, New Spinning and Texturing 1.4.1 Modification to Conventional Ring Spinning 1.4.2 New Spinning 1.4.3 Modification to Texturing and New Texturing 1.5 Production and Market of Textile Yarns 1.5.1 Changes in Textile Yarns 1.5.2 Yarn Production and Market References【Modified Ring Spinning and Yarns】 2.1 Sirospun and Yarns 2.1.1 Theoretical Model of Sirospun 2.1.2 Experimental Analysis 2.2 Sirofil and Yarns 2.3 Solospun and Yarns 2.4 Compact (condensing) Spinning and Yarns 2.4.1 Principle of Compact (condensing)Spinning 2.4.2 Compact (condensing) Spinning Devices 2.4.3 Structures and Properties of Compact Spun Yarn References【Rotor Spinning and Yarns】 3.1 Introduction 3.1.1 History 3.1.2 Development 3.1.3 Present Situation 3.2 Principle of Rotor Spinning 3.2.1 Process of Rotor Spinning 3.2.2 Development and Analysis of Spinbox 3.3 Yarn Structures and Properties 3.3.1 Fiber Shapes inside the Yarn Body 3.3.2 Twist Structure inside the Yarn Body 3.3.3 Yarn Properties 3.4 Yarns and Their Products 3.4.1 Materials and Yarn Tex 3.4.2 New Yarns, New Products 3.4.3 Rotor-spun Composite Yarns 3.4.4 Waste Spun Yarn of Rotor Spinning 3.5 Prospect for Rotor Spinning 3.5.1 Technical Economic Analysis of Rotor Spinning 3.5.2 The Prospects of Rotor Spinning References【Air-jet Spinning and Yarns(MJS, MVS)】 4.1 Development of Air-jet Spinning 4.1.1 History 4.1.2 Present Situation 4.2 The Process and Mechanism 4.2.1 Process 4.2.2 Unique Properties of Drafting System 4.2.3 The Principle of Twisting 4.3 Yarn Structures and Properties 4.3.1 Analysis of Yarn Structure 4.3.2 Analysis of Yarn Properties 4.4 The Development of Products 4.4.1 Adaptability of Spinning 4.4.2 Properties of Fabric Made of Air-jet Yarn 4.4.3 Product Development 4.5 Technical Economical Analysis and Future Prospects for Air-jet Spinning 4.5.1 Technical Economical Indices 4.5.2 Prospects for Air-jet Spinning 4.6 rata Vortex Spinning (MVS) and Yarns 4.6.1 Technology Process of the MVS 4.6.2 Twisting Principle of the MVS 4.6.3 Structure of Vortex Yarn and Its Products 4.6.4 Developing Prospects References【Vortex Spinning and Yarns】 5.1 Introduction 5.1.1 History 5.1.2 The Process of Vortex Spinning 5.1.3 The Preparatory Machines of Vortex Spinning 5.2 Principles of Vortex Spinning 5.2.1 Distribution of Air-pressure and Velocity in Vortex Field 5.2.2 Air flow inside the Vortex Tube 5.2.3 Yarn Twisted by Vortex 5.2.4 Structure and Parameters of Vortex Tube 5.3 Structures and Properties of Vortex Yarn and Products 5.3.1 Spinnability of Vortex Spinning 5.3.2 Structures and Properties of Vortex Yarn 5.3.3 Products of Vortex Yarn 5.4 Technical Economical Analysis of Vortex Spinning 5.4.1 Characteristics of Vortex Yarn 5.4.2 Analysis of Technical Economical 5.4.3 Prospects References【Friction Spinning and Yarns】 6.1 The History and Present of Friction Spinning 6.2 The Twisting Principle of Friction Spinning 6.2.1 Process of Friction Spinning 6.2.2 Principle of Friction Spinning 6.3 Structures and Properties of Friction Yarn 6.3.1 Yarn Structure 6.3.2 Yarn Properties 6.4 The Products of Friction Yarn 6.4.1 Adaptable Materials and Yarn Tex 6.4.2 Products 6.5 The Prospects for Friction Spinning 6.5.1 Main Problems for Friction Spinning 6.5.2 Prospects of Friction Spinning References【False-twist Texturing and Yarns】 7.1 Introduction 7.2 lti-steps Conventional Texturing Process 7.3 The Principle of False-twist Texturing 7.4 False-twist Formation and Process 7.5 Twist Insertion Device 7.5.1 Pin Spindle 7.5.2 Friction Twisting 7.6 Heat-setting 7.6.1 Heating Systems 7.6.2 Cooling Systems 7.6.3 Heat Transfer 7.6.4 Mechanisms of Setting 7.7 Modification to False-twist Texturing 7.7.1 Draw Texturing 7.7.2 The Second Heat Treatment 7.8 Process Parameters and Quality Control 7.8.1 Process Parameters 7.8.2 Quality Control 7.9 False-twist Texturing Machine 7.9.1 Machine Configurations 7.9.2 lti-input Shaft Machine 7.9.3 Automation 7.9.4 False-twist Texturing Machines Made in China 7.9.5 Yarn Products 7.10 Structure and Properties of False-twist Textured Yarns 7.10.1 Filament Migration and Structure of False-twist Textured Yarns 7.10.2 Tensile Curve and Crimp Properties of False-twist Textured Yarn References【Air-jet Texturing and Yarns】 8.1 Introduction 8.2 Principles and Nozzles of Air-jet Texturing 8.2.1 Principles of Air-jet Texturing 8.2.2 Air-jet Texturing Nozzles 8.3 Air Flow in the Nozzles 8.3.1 Air Flow through the Nozzle 8.3.2 Air Flow Properties of Nozzles 8.4 Loop Formation Mechanism and Process 8.5 Air-jet Technology and Machine 8.6 Air-jet Texturing Process Variables 8.6.1 Supply Yarn 8.6.2 Overfeed 8.6.3 Air Pressure 8.6.4 Wetting of Supply Yarn 8.6.5 Heat-setting 8.7 Structure, Properties and Application of Air-jet Textured Yarn 8.7.1 Structure of Air-jet Textured Yarn 8.7.2 Properties of Air-jet Textured Yarn 8.7.3 Application and End Use of Air-jet Textured Yarn References【Hot-fluid (Jet) Texturing and Yarns】 9.1 Introduction 9.2 Mechanical Feed Stuffer-box Texturing 9.2.1 Buckling Model in Stuffing Box 9.2.2 Influence of Filament Properties and Stuffing Box Construction on Buckling Process 9.3 Hot-fluid (Jet) Texturing 9.3.1 Hot-fluid Nozzle 9.3.2 Air Flow in the Hot-fluid Nozzle 9.4 Modified Hot-fluid(Jet) Texturing- Moving-cavity Texturing 9.5 Morphology and Properties of BCF Yarn 9.6 Hot-fluid Texturing Machine References【 lti Texturing and Yarns】 10.1 Introduction 10.2 False-twist Texturing (or Hot-fluid Texturing) with Intermingled Process 10.2.1 Intermingled Process 10.2.2 Air Flow in the Intermingling Nozzle 10.2.3 False-twist Texturing with Intermingled Process 10.3 False-twist Texturing with Air-jet Texturing 10.4 Two-for-one Twist Process with False-twist Texturing 10.5 Differential Shrinkage Texturing with False-twist Texturing(or Air-jet Texturing) 10.6 Air-jet Texturing with Texspun 10.7 Fine-scope Texturing 10.7.1 Thickness Techniques 10.7.2 Twist Node Techniques References
本書綜合介紹了各種新型紡織紗線的成紗原理、方法、工藝及成紗結構、性能和應用等,主要涉及傳統環錠紡紗的變革與進步,包括賽絡紡、賽絡菲爾紡、緊密紡、纜繩紡等及其紗線;新型紡紗的完善及其改進,包括轉杯紡、摩擦紡、噴氣紡、渦流紡等及其紗線;長絲變形加工的發展及完善,包括假捻變形、空氣變形、熱流變形、多重變形等及其紗線。全書共分十章,對各種紡紗方法分章敘述,便於完整學習,又便於相互間進行特色對比。 本書可供紡織類本科生、研究生教科書或參考書;亦可供材料類(化學纖維)本科生、研究生參考書;可供紡織類老師、紡織研究單位研究人員參考書;亦可供紡織企業(棉紡織、毛紡織、麻紡織、絲織)及化纖企業的T程技術人員參考。 本書另有對應中文版,特別適用於高校進行的雙語教學,作為紡織類本科生、研究生雙語教學教材。