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Livros e artigos aconselhados:

(ordem cronológica)

Fraser, R.B.D. and MacRae, T.P. (1973), Conformation of Fibrous Proteins and Related Synthetic Polypeptides, Chapter 13. Silks. Academic Press: New York, 293-343,

M.D. de Araújo e E.M. de Melo e Castro (1986), Manual of Textile Engineering, Vol. I, Coleção Manuais Universitários, Fundação Calouste Gulbenkian, Lisboa, Portugal, P. 684, (in Portuguese),

W.E. Morton and J.W.S. Hearle (1993), Physical Properties of Textile Fibres, The Textile Institute, Manchester, UK, P.725,

J.W.S. Hearle (Ed) (2001), High Performance Fibres, Woodhead Publishing Ltd., Cambridge, UK, P.329,

D.B. Kim, W.B Lee, S.M. Jo, Y.M. Lee, B.C. Kim (2002), Journal of Applied Polymer Science, 6(3), 239,

K.C. Schuster, P. Aldred, M. Villa, M. Baron, O. Biganska (2003), Lenzinger Berichte, 85, 622,

T. Hongu, G.O. Phillips and M. Takigami (2005), New Millennium Fibers, Woodhead Publishing Ltd., Cambridge, UK, P.299,

Reddy N., Yang Y. (2005), Biofibers from agricultural byproducts for industrial applications. Trends in Biotechnology, 23 (1) 22-27,

Reddy N., Yang Y. (2005) Structure and properties of high quality natural cellulose fibers from cornstalks. Polymer, 46 5494–5500,

M.A. Rous, E. Ingolic, K.C. Schuster (2006), Cellulose, 23, 214,

Thomas Röder, Johann Moosbauer, Gerhard Kliba, Sandra Schlader, Gerhard Zuckerstätter, and Herbert Sixta (2009), Comparative characterization of man-made regenerated cellulose fibres, Lenzinger Berichte, 87 2009, 98-105,

P. Lodha, B. Kapoor, T. Mahajan (2009), A Lyocell Fibre with Modified Property and A Process for making therefor, Aditya Birla Science & Technology Co. Ltd., International Publication (WO 2009/063479 A2),

Jade Palmieri (2010), Fibre Analyses: man-made versus natural, WHRHS-Forensic-Chem-Spring,

M.D. de Araujo (2011) , Chapter 1: Natural and Man-made Fibers: Physical Properties, in F. Fangueiro (Ed) – Fibrous and composite materials for civil engineering applications, Woodhead Publishing Ltd., Cambridge, UK, P.3-28,

Gopan Mukkulath and Santosh G. Thamp (2012), Biodegradation of Coir Geotextiles Attached Media in Aerobic Biological Wastewater Treatment, Journal of Bioremediation & Biodegradation, September 24,

Kunal Singha (2012), Importance of the Phase Diagram in Lyocell Fiber Spinning, International Journal of Materials Engineering, 2012, 2(3): 10-16,

Matheus Poletto, Ademir J Zattera and Vinícios Pistor (2013), Structural Characteristics and Thermal Properties of Native Cellulose, in “Cellulose – Fundamental Aspects”, book edited by Theo van de Ven and Louis Godbout, Published: August 28, ISBN 978-953-51-1183-2,

Thomas Röder, Johann Moosbauer, Kateryna Wöss, Sandra Schlader and Gregor Kraft (2013), Man-Made Cellulose Fibres – a Comparison Based on Morphology and Mechanical Properties, Lenzinger Berichte, 91, p7-12,

M. Sfiligoj Smole, S. Hribernik, K. Stana Kleinschek and T. Kreže (2013), Plant Fibres for Textile and Technical Applications, in “Advances in Agrophysical Research”, book edited by Stanislaw Grundas and Andrzej Stepniewski, July 31, ISBN 978-953-51-1184-9,

Jian Yao ,Cees W. M. Bastiaansen and Ton Peijs (2014), High Strength and High Modulus Electrospun Nanofibers, Fibers, 2(2), 158-186, doi:10.3390/fib2020158,

L.Q.N. Tran, T. Nguyen Minh, C.A. Fuentes ,T. Truong Chi, A. Van Vuure, I. Verpoest (2014), Investigation of microstructure and tensile properties of porous natural coir fibre for use in composite materials, in Industrial Crops and Products 65:437-445, November,

Jingyu Chen, Kylie Vongsanga, Xungai Wang and Nolene Byrne (2014), What Happens during Natural Protein Fibre Dissolution in Ionic Liquids, Materials, 7(9), 6158-6168,

Ming Liu, Dinesh Fernando, Geoffrey Daniel and Anders Thygesen (2015), Effect of harvest time and field retting duration on the chemical composition, morphology and mechanical properties of hemp fibres, in Industrial Crops and Products, 69:29-39, July,

M.D. de Araujo (2016), Chapter 1: Fibre science: understanding how it works and speculating on its future, in R. Fangueiro and S. Rana (Ed) – Natural Fibres — Advances in Science and Technology Towards Industrial Applications: From Science to Market, Springer (RILEM Book Series), USA, P.3-18,

Gamze Süpüren Mengüç, Nilgün Özdil, Gonca Özçelik Kayseri, Physical Properties of Angora Rabbit Fibers, American Journal of Materials Engineering and Technology, volume 2, issue 2, Science and Education Publishing,

Menachem Lewin (Ed), Handbook of Fiber Chemistry, Third Edition,

Soo-Jin Park and Gun-Young Heo, Chapter 2, Precursors and Manufacturing of Carbon Fibers.

Websites aconselhados:

Wikipedia, The Free Encyclopedia (for most fibres by name),

CIRFS – European Man-made Fibres Association,

Cotton Incorporated,

The Woolmark Company,

International Cotton Advisory Committee,

NPTEL,

Genome Engineering with CRISPER-CAS 9,

David Walker, Exploring the cultivation silk moth Bombyx Mori,

L. Hunter, Mohair Knowledge and Information Data Base,

Shail Blog,

Central Silk Board,

Island Alpaca,

Gateway Farm Alpacas,

University of the West Indies (Prof. Robert J. Lancashire),

Textile Apex,

Textile Fashion Study,

Textile Fabric Consultants Inc,

Sudipio Mandel,Textile Library,

Keiko.y,

Tex Note on Viscose Rayon,

How products are made (spandex),

Understanding the role of polymers in sports equipment.