Physical properties of textile fibres

Coedited by one of the world's leading authorities in the field and the late W.E. Morton, this classic book explores key aspects of fiber performance. Cementing its reputation as an invaluable reference, this fourth edition has been substantially reorganized and revised to reflect new research directions. After introductory chapters on fiber structure, testing, and sampling, the book reviews key fiber properties, their technical significance, factors affecting these properties, and measurement issues. It examines fineness, length, density, thermal properties, and reaction to moisture. The book also considers tensile properties, thermomechanical responses, and fiber breakage and fatigue. It concludes with discussions on dielectric properties, electrical resistance and static, optical properties, and fiber friction. Each chapter covers both natural and synthetic fibers, including high-performance fibers.

An Introduction To Fibre Structure - General Introduction - Methods Of Investigation Of Structure - Approaches To Polymer Fibre Structure - Cellulose Fibres - Regenerated And Modified Celluloses - Protein Fibres - Synthetic Fibres For General Use - High-Performance Fibres - Specialist Fibres - Some Concluding Views Testing And Sampling - Test Procedures - Variability And Sampling - Numerical And Biased Samples - Sampling Techniques - Zoning Fibre Fineness And Transverse Dimensions - Fibre Dimensions - Terms And Definitions - The Technical Significance Of Fibre Fineness - Variation In Fineness - Measurement Of Linear Density - Direct Measurement Of Transverse Dimensions - Optical Technology For High-Speed Testing - Air-Flow Methods - The Vibroscope Method - Fibre Shape And Cotton Maturity Fibre Length - Fibre Lengths - Technical Significance Of Fibre Length - Length Distributions And Fibre Diagrams - Wool And Cotton - Crimp - Individual Fibre Length Measurement - Comb-Sorter Methods - The Balls Sledge Sorter - Cutting-And-Weighing Methods - Automated Scanning Of Fibre Tufts - Scanning Individual Fibres Fibre Density - Introduction - Measurement - Results - Density And Order Thermal Properties - Introduction - Thermal Parameters Equilibrium Absorption Of Water - Introduction - Definitions - Measurement Of Regain - Relation Between Regain And Relative Humidity Heats Of Sorption - Definitions - Measurement - Results - Effects Of Evolution Of Heat Rate Of Absorption Of Moisture - Introduction - Diffusion Of Moisture - The Interaction Of Moisture And Heat - Practical Effects The Retention of Liquid Water - Introduction - Centrifuging Of Wet Fibres - Suction - Interactions Swelling - Introduction - Measurement Of Swelling - Results Theories of Moisture Sorption - The General View - Quantitative Theories Of Absorption - The Relations Between Absorption, Swelling, And Elastic Properties - Surface Adsorption - The Effect Of Temperature Tensile Properties - General Introduction - Factors Determining The Results Of Tensile Experiments - Expressing The Results: Quantities And Units - Experimental Methods - Fibre Properties - Other Factors The Effects Of Variability - Introduction - Variability, Specimen Length, And Strength - Variability And Other Quantities - Composite-Specimen Effects - Variability In Practice - Changes In Specimen During Test Elastic Recovery - Introduction - Definitions - Experimental Methods - Results - Change Of Properties As A Result Of Straining: Mechanical Conditioning - Swelling Recovery - Simple Recovery Models Rheology - The Study Of Time-Dependence - Creep - Stress Relaxation - Time And Tensile Testing - Dynamic Tests Directional Effects - Introduction - Bending Of Fibres - Twisting Of Fibres, And The Shear Modulus - Shear Strength - General Elastic Deformation - Compression Stresses On Fibre Masses Thermo-Mechanical Responses - Introduction - Melting - Dynamic Mechanical Responses - Transitions In Keratin Fibres - Thermomechanical Responses - Setting Fibre Breakage And Fatigue - Fibre-Fracture Morphology - Monotonic Breaks - Tensile Fatigue - Torsional Fatigue - Flex Fatigue - Combined Bending And Twisting: Biaxial Rotation - Surface Wear And Peeling - Abrasion And Wear Theories Of Mechanical Properties - Introduction - Structural Effects In Rayon Fibres - Nylon, Polyester And Similar Fibres - High Performance Fibres - A General Theory Of Orientation - Structural Effects In Natural Fibres - Theories Of Time-Dependence - Thermodynamic Effects Dielectric Properties - General Introduction - Definitions Of Dielectric Properties - Measurement - The Effect Of Frequency - The Effect Of Moisture - The Effect Of Temperature - The Effect Of Other Factors - Summary Of Results For Various Materials Electrical Resistance - Introduction - Definitions - Methods Of Measurement - Results Of Experiments - Theoretical Static Electricity - Introduction - Measurement Of Static - Results - Generation Of Charge - Leakage Of Charge Optical Properties - Introduction - Refraction - Absorption And Dichroism - Reflection And Lustre Fibre Friction - Introduction - Measurement Of Fibre Friction - Empirical Results - The Nature Of Friction - The Friction Of Wool Appendix 1: Units - Introduction - Fineness - Stress And Specific Stress Appendix 2: Fibre Names - Introduction - Regenerated Fibres - Synthetic Fibres Of Linear Macromolecules - High-Modulus, High-Tenacity (Hm-Ht) Linear Polymer Fibres - Carbon Fibres - Inorganic Fibres - References Appendix 3: Standard Test Methods

First published in 1962, and now in its fourth edition, Physical properties of textile fibres has become a classic, providing the standard reference on key aspects of fibre performance. The new edition has been substantially reorganised and revised to reflect new research. After introductory chapters on fibre structure, testing and sampling, the book reviews key fibre properties, their technical significance, factors affecting these properties and measurement issues. Each chapter covers both natural and synthetic fibres, including high-performance fibres. The book first reviews properties such as fineness, length and density. It then considers thermal properties and reaction to moisture. A further group of chapters then reviews tensile properties, thermo-mechanical responses, fibre breakage and fatigue. Finally, the book discusses dielectric properties, electrical resistance and static, optical properties and fibre friction. Written by one of the world's leading authorities, the fourth edition of Physical properties of textile fibres consolidates its reputation as a standard work both for those working in the textile industry and those teaching and studying textile science.

• Introduction to fibre structure
• Testing and sampling
• Fibre fineness and transverse dimensions
• Fibre length
• Fibre density
• Thermal properties
• Equilibrium absorption of water
• Heats of sorption
• Rate of absorption of moisture
• The retention of liquid water
• Swelling
• Theories of moisture sorption
• Tensile properties
• The effects of variability
• Elastic recovery
• Rheology
• Directional effects
• Thermo-mechanical responses
• Fibre breakage and fatigue
• Theories of mechanical properties
• Dielectric properties
• Electrical resistance
• Static electricity
• Optical properties
• Fibre friction.