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E-grāmata: Auxetic Textiles

(Professor, Institute of Textiles and Clothing, The Hong Kong Polytechnic University), (Associate Professor, College of Textiles, Donghua University), (Researcher, Institute of Textiles and Clothing, Hong Kong Polytechnic University)
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Auxetic Textiles provides a detailed introduction to the basic properties of auxetic materials and how they differ from conventional materials, particularly auxetic textiles, such as polymers, fibers, yarns, fabrics and textile composites. The book discusses the beneficial properties of auxetic structures in textiles and how to translate those benefits into actual materials development. Sections cover the deformation mechanism of textile structures to achieve auxetic behavior and the modelling and simulation of auxetic textile structures. Finally, the book provides expert insights into potential application areas.

Cutting across textiles disciplines, from technical textiles and advanced composites, to fashion and design, the book is a valuable introduction to the field for newcomers, with potent insights into the potential of these materials.

  • Introduces the concept of auxetic materials and their differences from conventional materials
  • Provides a practical guide to the mechanics of achieving auxetic properties in textile materials, including polymers, fibers, yarns, fabrics and composites
  • Reviews and links up research and development in auxetic materials with the textile industry, helping enable the development of a range of new applications
Acknowledgements vii
1 Introduction
1(18)
1.1 Definition of Poisson's ratio
1(1)
1.2 Nonconventional behaviour of auxetic materials
1(7)
1.3 Classification of auxetic materials
8(1)
1.4 Classification of auxetic textiles
9(10)
Reference
13(6)
2 Auxetic structures and mechanisms
19(38)
2.1 Introduction
19(1)
2.2 Reentrant structures and mechanisms
19(9)
2.3 Rotating polygons and mechanisms
28(13)
2.4 Chiral structures and mechanisms
41(3)
2.5 Folded structures and mechanisms
44(5)
2.6 Other types of auxetic structures and mechanisms
49(8)
References
55(2)
3 Auxetic polymers
57(36)
3.1 Introduction
57(1)
3.2 Auxetic polymeric foams
57(27)
3.3 Other types of auxetic polymers
84(9)
Reference
89(4)
4 Auxetic fibres and yarns
93(48)
4.1 Introduction
93(1)
4.2 Spinning technology
93(8)
4.3 Auxetic fibres
101(8)
4.4 Helical auxetic yarns
109(11)
4.5 Helical auxetic plied yarns
120(18)
4.6 Other types of auxetic yarns
138(3)
References
139(2)
5 Auxetic fabrics based on knitted structures
141(50)
5.1 Introduction
141(1)
5.2 Knitting technology
141(5)
5.3 Weft-knitted auxetic fabrics
146(12)
5.4 Warp-knitted auxetic fabrics
158(16)
5.5 Modelling and simulation of knitted auxetic fabrics
174(17)
References
189(2)
6 Auxetic fabrics based on woven structures
191(56)
6.1 Introduction
191(1)
6.2 Weaving technology
191(6)
6.3 Auxetic woven fabrics made of auxetic yarns
197(7)
6.4 Auxetic woven fabrics made of nonauxetic yarns
204(43)
References
245(2)
7 Auxetic fabrics based on nonwoven structures
247(18)
7.1 Introduction
247(1)
7.2 Nonwoven technology
247(7)
7.3 Auxetic nonwoven fabrics produced by laser cutting
254(2)
7.4 Auxetic nonwoven fabric by heating and compression
256(7)
7.5 Other methods for fabricating auxetic nonwovens
263(2)
References
263(2)
8 Auxetic fabrics based on braided structures
265(20)
8.1 Introduction
265(1)
8.2 Braiding technology
265(4)
8.3 Auxetic fabric structure developed by modifying conventional circular braiding process
269(7)
8.4 Auxetic fabric structure by using conventional circular braiding process
276(9)
References
282(3)
9 Auxetic fibre---reinforced composites
285(52)
9.1 Introduction
285(1)
9.2 Benefits of using auxetic fibres and yarns as reinforcement
285(3)
9.3 Auxetic fibre---reinforced laminates
288(13)
9.4 Three-dimensional auxetic textile composites
301(36)
Reference
334(3)
10 Applications of auxetic textiles
337(14)
10.1 Introduction
337(1)
10.2 Auxetic textiles for clothing applications
337(3)
10.3 Auxetic textiles for medical and healthcare applications
340(2)
10.4 Auxetic textiles in protective applications
342(3)
10.5 Auxetic textiles for packaging applications
345(2)
10.6 Auxetic textiles for automotive applications
347(1)
10.7 Auxetic textiles for industrial applications
347(1)
10.8 Auxetic textiles for other applications
348(3)
References
349(2)
Index 351
Hong Hu is a Professor in the Institute of Textiles and Clothing at The Hong Kong Polytechnic University. For many years, he has been teaching and researching in knitting technology, textile composites, 3D textile structures and mechanics. He is internationally recognized for his research work on 3D textile structures for composite reinforcement and auxetic textile materials for technical applications. Minglonghai Zhang graduated in Textile Engineering at Jiangnan University as BSc program and Textile Technology at the University of Manchester for MSc degree. He is currently doing PhD in the Hong Kong Polytechnic University and working with auxetic composites. Zhang used to do research about graphene composites and published one paper, got four authorised patents and one software copyright. Yanping Liu is an Associate Professor in the College of Textiles at Donghua University. His research interests lie in the development of new textile structures and processes with unusual properties for special applications such as impact protection, vibration isolation, and sound absorption using advanced experimental and numerical methods.
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