Physico-chemical Aspects of Textile Coloration - Stephen M. Burkinshaw

Physico-chemical Aspects of Textile Coloration

Buch | Hardcover
640 Seiten
2016
John Wiley & Sons Inc (Verlag)
978-1-118-72569-6 (ISBN)
170,08 inkl. MwSt
The production of textile materials comprises a very large and complex global industry that utilises a diverse range of fibre types and creates a variety of textile products. As the great majority of such products are coloured, predominantly using aqueous dyeing processes, the coloration of textiles is a large-scale global business in which complex procedures are used to apply different types of dye to the various types of textile material. The development of such dyeing processes is the result of substantial research activity, undertaken over many decades, into the physico-chemical aspects of dye adsorption and the establishment of ‘dyeing theory’, which seeks to describe the mechanism by which dyes interact with textile fibres.

Physico-Chemical Aspects of Textile Coloration provides a comprehensive treatment of the physical chemistry involved in the dyeing of the major types of natural, man-made and synthetic fibres with the principal types of dye. The book covers:



fundamental aspects of the physical and chemical structure of both fibres and dyes, together with the structure and properties of water, in relation to dyeing;
dyeing as an area of study as well as the terminology employed in dyeing technology and science;
contemporary views of intermolecular forces and the nature of the interactions that can occur between dyes and fibres at a molecular level;
fundamental principles involved in dyeing theory, as represented by the thermodynamics and kinetics of dye sorption;
detailed accounts of the mechanism of dyeing that applies to cotton (and other cellulosic fibres), polyester, polyamide, wool, polyacrylonitrile and silk fibres;
non-aqueous dyeing, as represented by the use of air, organic solvents and supercritical CO2 fluid as alternatives to water as application medium.

The up-to-date text is supported by a large number of tables, figures and illustrations as well as footnotes and widespread use of references to published work. The book is essential reading for students, teachers, researchers and professionals involved in textile coloration.

Professor Stephen Burkinshaw is a Professor of Textile Chemistry at the University of Leeds. His research interests include the chemistry and application of dyes and pigments to natural and man-made fibres, colour measurement and textile finishing. He is the author of ~200 publications including a textbook on dyeing theory (Chemical Principles of Synthetic Fibre Dyeing, Springer, 1995.) and section editor for the Springer publication, Encyclopedia of Colour Science and Technology, which is due for publication in 2013. As both a tutor of part-time students sitting ASDC Paper C: Properties of Materials and Finished Products and Fundamental Mechanisms of Industrial Processes and examiner of ASDC Paper C (1994-1999), as well as the person responsible for teaching and examining all three undergraduate years in Dyeing Theory within the Department of Colour Science at Leeds University, Professor Burkinshaw has first-hand, tangible experience of how students view and use this particular book.

Society of Dyers and Colourists xi Preface xiii

1 Fundamental Aspects of Textile Fibres 1

1.1 Textiles 1

1.1.1 Yarn 2

1.1.2 Fabric 4

1.1.3 Textile Markets 6

1.2 Textile Fibres 6

1.2.1 Textile Fibre Classification 7

1.2.2 Textile Usage 9

1.2.3 The History and Development of Textile Fibres 9

1.2.4 Textile Polymers 12

1.2.5 Textile Fibre Morphology and Fine Structure 16

1.3 General Physical and Mechanical Characteristics of Textile Fibres 27

1.3.1 Length 27

1.3.2 Fineness 27

1.3.3 Twist 32

1.3.4 Fibre Specific Surface Area, Sm or Sv 33

1.3.5 Cross-Sectional Shape 33

1.4 Properties of Textile Fibres 35

1.4.1 Mechanical Properties 35

1.4.2 Thermal Properties 37

1.4.3 Optical Properties 48

References 51

2 Dyes 65

Introduction 65

2.1 Dyes 65

2.1.1 Historical Aspects 66

2.1.2 Classification of Colorants 71

2.1.3 Colour and Constitution 75

2.1.4 Commercial Dye Forms 75

2.1.5 Commercial Dye Names 76

2.1.6 Global Dye Consumption 76

References 76

3 The Role of Water in Aqueous Dyeing 81

Introduction 81

3.1 Water Structure 82

3.2 Water Availability and Global Consumption 84

3.2.1 Water Footprint 85

3.3 Water Use in Dyeing 86

3.3.1 Water Used in Cotton Production 86

3.3.2 Water Used in Fibre Processing 87

3.3.3 Water Used in Dyeing 87

3.4 Water and Textile Fibres 91

3.4.1 Hydrophilicity and Hydrophobicity 93

3.4.2 Moisture Sorption 94

3.4.3 The Porous Nature of Fibres 103

3.4.4 Wetting and Wicking 105

3.4.5 Swelling 109

3.4.6 Water Plasticisation 110

3.5 Water and Dyes 116

3.5.1 Solvation 117

3.5.2 Dye Solubility 120

3.5.3 Dye Aggregation in Solution 123

3.5.4 Dye Aggregation in the Fibre 129

3.5.5 Aqueous Dye Dispersions 129

3.6 pH and pK 134

3.6.1 Water Ionisation (Ionic Product of Water) 134

3.6.2 The pH Scale 135

3.6.3 pKa and pKb 136

3.6.4 Buffer Systems and the Henderson–Hasselbalch Equation 136

References 137

4 Fundamentals of Dyeing 153

Introduction 153

4.1 Dye–Fibre Systems 154

4.2 Fundamental Principles of Dyeing 156

4.2.1 Dye–Fibre Substantivity 156

4.2.2 Driving Force for Dyeing 157

4.2.3 Dye Exhaustion 157

4.2.4 Rate of Dyeing 158

4.2.5 Depth of Shade 159

4.2.6 Liquor Ratio 159

4.2.7 Dye Fixation 160

4.2.8 Wash-Off 161

4.2.9 Fastness 162

4.2.10 Dyeing Auxiliaries 163

References 164

5 Dye–Fibre Interactions 167

Introduction 167

5.1 Intermolecular Interactions (or Forces) between Atoms and Molecules 167

5.1.1 Covalent Bonds 169

5.1.2 Ion–Ion Interactions (aka Charge–Charge, Coulomb, Electrostatic Interactions) 169

5.1.3 Ion–Dipole Interactions (aka Charge–Dipole, Monopole–Dipole) 169

5.1.4 Van der Waals Interactions (aka van der Waals Forces) 170

5.1.5 Hydrogen Bonds 172

5.1.6 Hydrophobic Effect and Hydrophobic Interactions 172

5.1.7 Total (Attractive and Repulsive) Intermolecular Potentials 173

5.1.8 Aromatic Interactions (aka π-Interactions, π-Effects) 173

5.2 Intermolecular Interactions (or Forces) between Macromolecules and Surfaces 176

5.2.1 Dispersion Interactions 176

5.2.2 Electrostatic Forces 178

5.3 Intermolecular Forces in the Context of Textile Fibres and Dyes 190

5.3.1 Intermolecular Forces in Textile Polymers 190

5.3.2 Intermolecular Forces between Dyes and Fibres 191

5.4 Solubility Parameter 192

5.4.1 Hildebrand Solubility Parameter 193

5.4.2 Hansen Solubility Parameters 193

5.4.3 Solubility Parameters and Dye–Fibre Substantivity 194

5.4.4 Carriers 194

5.5 Fibre Modification to Enhance Dye–Fibre Substantivity 195

5.5.1 Mercerisation 195

5.5.2 Plasma 197

5.5.3 Pre-treatment with Cationic Compounds 199

5.5.4 Nucleophilic Dyes on Modified Substrates 200

References 200

6 Dyeing Theory 209

Introduction 209

6.1 Background 210

6.2 Dyeing Systems at Equilibrium (the Thermodynamics of Dyeing) 211

6.2.1 Adsorption 213

6.2.2 Standard Affinity, Standard Heat and Standard Entropy of Dyeing 216

6.3 Kinetics of Dyeing 221

6.3.1 Diffusion 222

6.3.2 Steady-State and Non-Steady-State Diffusion 223

6.3.3 Fick’s Laws of Diffusion 223

6.3.4 Experimental Methods for Determining Diffusion Coefficient 224

6.3.5 Approximate Solutions to Diffusion Equations 228

6.3.6 Characterisation of the Rate of Dyeing 228

6.3.7 Apparent Diffusion Coefficient 229

6.3.8 Boundary Layers in Diffusion 231

6.3.9 Effect of Temperature on Dye Diffusion 233

6.3.10 Influence of Fibre Structure on Diffusion 235

6.3.11 Influence of Dye Structure on Diffusion 237

References 241

7 Cellulosic Fibres 249

Introduction 249

7.1 Cotton 249

7.2 Viscose Fibres 250

7.2.1 Skin–Core Structure 251

7.3 Lyocell Fibres 252

7.4 CA and CTA Fibres 254

7.5 Cellulose Chemistry and Molecular Structure 256

7.5.1 Crystal Forms 257

7.6 Cellulosic Fibre Fine Structure 260

7.7 Hydroxyl Groups in Cellulosic Fibres 261

7.7.1 Accessibility 261

7.8 Water/Cellulose Interactions 263

7.8.1 Moisture Sorption 263

7.8.2 Free and Bound Water 265

7.8.3 Pore Structure 266

7.8.4 Swelling 267

7.8.5 Bleaching of Cotton and Other Cellulosic Fibres 270

7.8.6 Plasticisation 270

7.9 Dye Classes Used on Cellulosic Fibres 272

7.10 The Role of Electrolyte in Cellulosic Fibre Dyeing 273

7.10.1 Nature of the Charged Cellulosic Fibre 274

7.10.2 Zeta Potential of Cellulosic Fibres 274

7.10.3 The Amount of Electrolyte Required to ‘Neutralise’ the Negative Surface Charge 279

7.10.4 Effect of Electrolyte on Dye Aggregation and Dye Solubility 280

7.11 Direct Dyes 281

7.11.1 Classification of Direct Dyes 282

7.11.2 Thermodynamics of Dyeing 283

7.11.3 Kinetics of Dyeing 297

7.11.4 Aftertreatment 301

7.12 Sulphur Dyes 302

7.12.1 Fundamentals of the Chemistry and Application of Sulphur Dyes for Cellulosic Fibres 303

7.12.2 Dye Application 304

7.13 Vat Dyes 305

7.13.1 Fundamentals of the Chemistry and Application of Vat Dyes for Cellulosic Fibres 306

7.13.2 Reduction 308

7.13.3 Adsorption of the Leuco Derivative (Dyeing) 312

7.13.4 Kinetics of Leuco Vat Application 317

7.13.5 Oxidation of the Adsorbed Dye 318

7.13.6 Soaping 319

7.14 Reactive Dyes 319

7.14.1 Fundamentals of the Chemistry and Application of Reactive Dyes for Cellulosic Fibres 320

7.14.2 Mechanism of Dyeing 325

7.14.3 Wash-Off 334

7.14.4 Aftertreatment 337

7.15 Azoic Colorants 337

7.15.1 Naphtholation 338

7.15.2 Development 338

7.15.3 Wash-Off 339

7.16 Disperse Dyes 340

References 340

8 Polyester Fibres 359

Introduction 359

8.1 PES Fibres 359

8.1.1 Fibre Production and Properties 360

8.1.2 Physical Structure 361

8.1.3 Oligomers 363

8.1.4 Sheath/Core Structure 365

8.1.5 Transitions (Relaxations) 365

8.1.6 PES/Water Interactions 366

8.1.7 Dyeing of PES Fibres 367

8.2 PLA Fibres 403

8.2.1 Polymer Synthesis 404

8.2.2 PLA Biodegradability 405

8.2.3 Fibres 405

References 413

9 Polyamide Fibres 427

Introduction 427

9.1 Aliphatic Polyamide Fibres 427

9.1.1 Nomenclature and Types of Polyamides 427

9.1.2 PA 6 and PA 66 429

9.1.3 Physical Structure 430

9.2 Dyeing of Aliphatic Polyamides 445

9.2.1 Effect of Physical Processing on Dyeing 446

9.2.2 Barré Effects 446

9.2.3 Levelling Agents 447

9.3 Acid Dyes 447

9.3.1 Non-metallised Acid Dyes 448

9.3.2 Pre-metallised Acid Dyes (Aka Metal Complex Dyes) 464

9.3.3 Aftertreatment 465

9.4 Disperse Dyes 467

9.5 Mordant Dyes 467

9.6 Direct Dyes 468

9.7 Reactive Dyes 468

9.7.1 Anionic Reactive Dyes 469

9.7.2 Disperse Reactive Dyes 470

9.8 Sulphur Dyes 470

9.9 Vat Dyes 471

9.10 Azoic Colorants 471

9.11 Microfibres 471

9.12 Semi-Aromatic Polyamides 473

9.13 Aromatic Polyamides 474

9.13.1 Fine Structure 475

9.13.2 Water/Aramid Interactions 476

9.13.3 Dyeing of Aromatic Polyamide Fibres 478

References 479

10 Wool Fibres 491

Introduction 491

10.1 Wool Chemistry and Molecular Structure 491

10.1.1 Proteins and Amino Acids 491

10.1.2 Fibre Morphology 494

10.1.3 Fine Structure 496

10.1.4 Water/Wool Interactions 497

10.1.5 Swelling and Heat of Sorption 498

10.1.6 Sorption of Acids and Alkalis 499

10.1.7 Water Plasticisation 499

10.1.8 Effect of Physical and Chemical Properties on Dyeing 500

10.2 Dyes for Wool 500

10.3 Non-metallised Acid Dyes 501

10.3.1 Thermodynamics of Dyeing 501

10.3.2 Effect of Electrolyte on Dye Adsorption 509

10.3.3 Affinities of Acids and Dye Anions 511

10.3.4 Kinetics of Dyeing 513

10.4 Pre-metallised Acid Dyes (Aka Metal Complex Dyes) 516

10.4.1 1 : 1 Metal Complex Dyes 517

10.4.2 1 : 2 Metal Complex Dyes 518

10.5 Mordant Dyes 519

10.5.1 Mechanism of Chroming 520

10.6 Reactive Dyes 521

10.6.1 Historical Aspects 521

10.6.2 Chemistry and Application of Reactive Dyes 521

10.6.3 Levelling Agents 522

References 524

11 Acrylic (polyacrylonitrile) Fibres 531

Introduction 531

11.1 Fibre Production and Properties 531

11.2 Physical Structure 532

11.2.1 Crystallinity or Pseudocrystallinity 533

11.2.2 Transitions (Relaxations) 533

11.2.3 Theories of Fine Structure 533

11.3 PAN/Water Interactions 535

11.3.1 Water Plasticisation 535

11.4 Dyes for PAN Fibres 536

11.5 Basic Dyes 536

11.5.1 Historical Aspects 536

11.5.2 General Characteristics of Basic Dyes 537

11.5.3 Thermodynamics of Dyeing 538

11.5.4 Kinetics of Dyeing 543

11.5.5 Effect of Electrolytes on Dyeing 545

11.5.6 Effect of pH on Dyeing 547

11.5.7 Effect of Temperature on Dyeing 548

11.5.8 Retarding Agents 550

11.5.9 Dyes in Admixture 550

11.5.10 Carriers 551

11.6 Disperse Dyes 551

11.6.1 Thermodynamics of Dyeing 552

11.6.2 Kinetics of Dyeing 552

References 553

12 Silk Fibres 559

12.1 Fibre Morphology 559

12.2 Silk Chemistry and Molecular Structure 559

12.3 Fine Structure 560

12.4 Silk/Water Interactions 564

12.4.1 Water Plasticisation 564

12.5 Dyes for Silk 565

12.5.1 Acid Dyes 566

12.5.2 Reactive Dyes 567

References 568

13 Non-aqueous Dyeing 571

Introduction 571

13.1 Dyeing from Air (Vapour-Phase Dyeing; Thermofixation) 571

13.1.1 General Introduction 571

13.1.2 Thermodynamics of Dyeing 571

13.1.3 Kinetics of Dyeing 573

13.2 Dyeing from Supercritical Carbon Dioxide 575

13.2.1 General Introduction 575

13.2.2 Properties of Supercritical CO2 Fluids 575

13.2.3 Solubility of Dyes in Supercritical CO2 577

13.2.4 Effect of Supercritical CO2 on Fibres 579

13.2.5 Dyeing from Supercritical CO2 582

13.3 Dyeing from Liquid (Non-aqueous) Solvents 592

13.3.1 PER Dyeing 592

13.3.2 Solvent-Assisted Dyeing 594

References 594

Colorants Index 601

Subject Index 605

Erscheint lt. Verlag 8.2.2016
Reihe/Serie SDC - Society of Dyers and Colourists
Verlagsort New York
Sprache englisch
Maße 213 x 305 mm
Gewicht 1678 g
Themenwelt Naturwissenschaften Chemie Physikalische Chemie
Technik
ISBN-10 1-118-72569-7 / 1118725697
ISBN-13 978-1-118-72569-6 / 9781118725696
Zustand Neuware
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