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E-raamat: Sustainable Fibres for Fashion and Textile Manufacturing

Edited by (Associate Professor, School of Communication and Design, RMIT University, Ho Chi Minh City, Vietnam)
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Sustainable Fibres for Fashion and Textile ManufacturingSuurem pilt
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Sustainable Fibres for Fashion and Textile Manufacturing presents the latest technical information about innovative natural and synthetic materials, helping the reader to understand sustainable fibres and raw materials for fashion and textile applications.

With a particular focus on apparel manufacturing, different applications of sustainable fibres are explored along with manufacturing techniques and details of the material properties. New research investigating nontraditional sources of textile fibres such as lotus, orange, milk, seaweed, corn, and mushroom are all presented, providing a uniquely comprehensive resource. Drawing on work by contributors from a variety of fields and roles in industry and academia, this book shares solutions and new perspectives on this interdisciplinary topic more widely in the hope of leading to research breakthroughs.

  • Shares a wealth of valuable data and results from research into sustainable cellulosic, lingo-cellulosic and protein fibres
  • Includes full technical descriptions of newly explored sustainable fibres, including chemical structures and structural properties
  • Presents a strong focus on improving sustainability of the industry through practical measures spanning disciplinary boundaries to address this complex issue
Contributors xi
Part One Introduction to sustainable fibres
1(48)
1 Traditional fibres for fashion and textiles: Associated problems and future sustainable fibres
3(24)
Rajkishore Nayak
Lalit Jajpura
Asimanda Khandual
1.1 Introduction
3(1)
1.2 Textile fibres
4(5)
1.3 Environmental impacts of textile fibre production
9(7)
1.4 Future directions
16(5)
1.5 Conclusions
21(6)
References
22(5)
2 Introduction to sustainable fibres for fashion and textiles
27(22)
Lebo Maduna
Asis Patnaik
2.1 Introduction
27(1)
2.2 Textile fibres-environmental impacts and sustainability
28(14)
2.3 Consumer behaviour and sustainability
42(1)
2.4 Sustainable designing
43(1)
2.5 Summary and future directions
44(5)
Acknowledgements
45(1)
References
45(4)
Part Two Sustainable natural fibres
49(178)
3 Organic cotton and BCI-certified cotton fibres
51(24)
Ashvani Goyal
Mayank Parashar
3.1 Introduction
51(1)
3.2 Cotton fibre
52(2)
3.3 Organic cotton
54(12)
3.4 BCI (Better Cotton Initiative)
66(2)
3.5 Bt cotton
68(1)
3.6 Application of organic cotton
69(1)
3.7 Way ahead
70(1)
3.8 Conclusions
70(5)
References
71(4)
4 Hemp, flax and other plant fibres
75(20)
Ryszard Kozlowski
Malgorzata Muzyczek
4.1 Introduction---natural fibres, yarns, fabrics and knitting for fashion
75(3)
4.2 The sustainability aspects of natural fabrics and knitting from flax, hemp, ramie, curaua, bamboo, pineapple fibres. Example of apparels
78(11)
4.3 Recycling of natural textiles as a sustainable solution
89(1)
4.4 Future trends and further information and advice
90(1)
4.5 Conclusions
91(4)
References
91(4)
5 Lotus fibre drawing and characterization
95(14)
Ritu Pandey
Amarish Dubey
Mukesh Kumar Sinha
5.1 Introduction
95(1)
5.2 Lotus cultivation
96(1)
5.3 Lotus fibre drawing
96(3)
5.4 Fibre physical properties
99(2)
5.5 Chemical analysis of lotus fibre
101(1)
5.6 Comparison of lotus fibre with cotton fibre
102(1)
5.7 Application of lotus fibre for commercial product
103(2)
5.8 Lotus inspired design culture
105(1)
5.9 Conclusion
106(3)
References
106(3)
6 Macrophyte and wetland plant fibres
109(20)
Ritu Pandey
Mukesh Kumar Sinha
Amarish Dubey
6.1 Introduction
109(1)
6.2 Classification of macrophyte and wetland plants
110(11)
6.3 Fibre morphology
121(1)
6.4 Physicomechanical properties
121(1)
6.5 Chemical composition
121(2)
6.6 Application of macrophytes in effluent treatment
123(1)
6.7 Conclusion
124(5)
References
124(5)
7 Mushroom and corn fibre---the green alternatives to unsustainable raw materials
129(30)
Yamini Jhanji
7.1 Detrimental impact of textile and fashion supply on environment
129(4)
7.2 Eco leather/environmentally preferred leather
133(1)
7.3 Mycelium and mushroom leather
134(14)
7.4 Introduction to com fibre
148(8)
7.5 Conclusions
156(3)
References
157(2)
8 Wool and silk fibres from sustainable standpoint
159(22)
Vinod Kadam
N. Shanmugam
8.1 Introduction
159(1)
8.2 Wool
160(8)
8.3 Silk
168(6)
8.4 Concluding remarks
174(7)
References
176(5)
9 Sustainable protein fibres
181(46)
Asim Kumar Roy Choudhury
9.1 Introduction
181(1)
9.2 Animal protein fibres
182(21)
9.3 Vegetable protein fibres
203(16)
9.4 Green composites
219(2)
9.5 Conclusion
221(6)
References
222(4)
Further reading
226(1)
Part Three Sustainable synthetic fibres
227(44)
10 Regenerated synthetic fibres: bamboo and lyocell
229(18)
C. Prakash
S. Kubera Sampath Kumar
10.1 Bamboo fibre
229(3)
10.2 Research on bamboo fibre
232(2)
10.3 Lyocell
234(9)
10.4 Conclusions
243(4)
References
243(4)
11 Sustainable polyester and caprolactam fibres
247(24)
Sanat Kumar Sahoo
Ashwini Kumar Dash
11.1 Introduction
247(1)
11.2 Polyester fibre
248(9)
11.3 Caprolactam or nylon fibre
257(8)
11.4 Conclusions
265(1)
11.5 Sources for further information
265(6)
References
266(5)
Part Four Fibres derived from waste
271(82)
12 Orange fibre
273(14)
Subhankar Maity
Pranjul Vajpeyee
Pintu Pandit
Kunal Singha
12.1 Introduction
273(1)
12.2 The orange fruit
274(1)
12.3 Grange peel waste as a textile raw material
274(2)
12.4 Structure and chemical composition of the orange peel
276(1)
12.5 Fibre extraction method
277(1)
12.6 Preparation of film from orange peel extracts
278(1)
12.7 Fibre morphology and properties
279(1)
12.8 Chemical composition of orange fibre
279(1)
12.9 Burning behaviour of orange fibre
280(1)
12.10 Solubility behaviour of orange fibre
280(1)
12.11 Moisture absorbency behaviour of orange fibre
280(1)
12.12 FTIR spectroscopy
281(1)
12.13 Thermal characterization of orange fibre
282(1)
12.14 Anti-microbial efficacy of orange fibre
282(1)
12.15 Benefits of textiles made of orange peel extracts
283(4)
References
284(3)
13 Coffee fibres from coffee waste
287(22)
Ajit Kumar Pattanayak
13.1 Introduction
287(1)
13.2 Coffee botanicas
288(3)
13.3 Recycled PET (rPET)
291(2)
13.4 Coffee fibres
293(4)
13.5 Sustainable products from coffee waste
297(2)
13.6 Sustainability of coffee fabric manufacturing
299(4)
13.7 Conclusions and futuristic trends
303(6)
References
303(6)
14 Recycled fibres from polyester and nylon waste
309(24)
Sanat Kumar Sahoo
Ashwini Kumar Dash
14.1 Introduction
309(1)
14.2 Textile recycling
310(1)
14.3 Polyester
310(11)
14.4 Nylon
321(8)
14.5 Conclusion
329(1)
14.6 Sources of further information
329(4)
References
330(3)
15 Composites derived from biodegradable Textile wastes: A pathway to the future
333(20)
Saniyat Islam
15.1 Introduction
333(1)
15.2 Textile waste
333(2)
15.3 Material thinking
335(1)
15.4 Designing out waste with a material circularity approach
335(1)
15.5 What are textile composites?
336(1)
15.6 What are biocomposites?
336(1)
15.7 Aspects of biodegradability of natural cellulose-based fibres
337(5)
15.8 Natural fibres as reinforcement for composites materials
342(1)
15.9 Opportunities and challenges around natural fibres reinforced polymers
342(1)
15.10 Design innovations
343(1)
15.11 Streamlining waste
344(1)
15.12 Way forward
345(1)
15.13 Conclusion
346(7)
References
346(7)
Part Five Organizations, standards and challenges
353(76)
16 Organizations and certifications relating to sustainable fibres
355(30)
Kunal Singha
Subhankar Maity
Pintu Pandit
16.1 Introduction
355(1)
16.2 Key sustainability organizations and certifications
355(16)
16.3 Fair labour schemes and initiatives
371(7)
16.4 Examples of sustainable textile fibres and fabric materials
378(4)
16.5 Conclusion
382(3)
References
383(2)
17 Challenges and future directions in sustainable textile materials
385(18)
Lebo Maduna
Asis Patnaik
17.1 Introduction
385(1)
17.2 Clothing production
386(1)
17.3 Consumer behaviour
386(2)
17.4 Sustainability approach
388(3)
17.5 Recycling
391(1)
17.6 Second-hand clothing
391(1)
17.7 Fibres
392(1)
17.8 Dyeing
393(1)
17.9 Recycling methods
394(3)
17.10 Ecolabel
397(1)
17.11 Future direction
397(1)
17.12 Conclusion
398(5)
Acknowledgements
399(1)
References
399(4)
18 Life cycle analysis of textiles and associated carbon emissions
403(26)
Yamini Jhanji
18.1 Introduction to life cycle assessment (LCA)
403(2)
18.2 Environmental impact, carbon emissions & the ardent need of LCA
405(8)
18.3 Carbon footprint, classification & related parameters
413(6)
18.4 LCA framework methodology
419(9)
18.5 Conclusion
428(1)
References 429(4)
Index 433
Rajkishore Nayak is an Associate Professor with the School of Communication & Design (SCD) at RMIT Vietnam. His research interests include new materialism, sustainability in fashion and textiles; circular fashion; waste management; and ethical fashion. Dr. Nayak has published 15 books and more than 150 high-impact journal papers. He is working in collaboration with universities in Africa, Europe, USA and Asia. Dr. Nayak is currently an Editorial member of various journals, including the Journal of Fashion Marketing and Management, and Fashion and Textiles. He is also an active member in SDC, ITA and AFC. He has extensive publications in high impact journals as well as books and book chapters.
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