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Reconhecimento:

ACOMinho wishes to thank all authors and organizations cited in the bibliography for the information provided, which was a great source of inspiration in the preparation of the modules.

Livros e artigos aconselhados:

(ordem cronológica)

Anon. (1963) Textile terms and definitions, Manchester, The Textile Institute, 63,

Anon. (2014) ‘A strong future for carbon, glass, synthetic and natural fibre textiles in composites’, Technical Textile Markets, 96,

Araujo, M. D., Fangueiro, R. and Soutinho, F. (2009) ‘Improving the stiffness of unidirectionally oriented weft-knitted structures for polymer matrix composite reinforcement’, Journal of the Textile Institute, 100 (8), 71,

Araujo, M. D. (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,

Ashok Kumar and M. Deka Nanofiber (2010), Reinforced Composite Polymer Electrolyte Membranes, Feb, https://www.researchgate.net/publication/221907426,

Au, K.F. (2011) Advances in knitting technology, Cambridge, UK, Woodhead Publishing,

Banerjee, P.K. (2014) Principles of fabric formation, Boca Raton – FL 33487 ,CRC Press-Taylor & Francis Group, 425,

Chen, X.G. and Tayyar A.E. (2003) ‘Engineering, manufacturing, and measuring 3D domed woven fabrics’, Textile Research Journal, 73, 375–380,

Chen, X.G., Taylor, L.W. and Tsai, L.J. (2011) ‘An overview on fabrication of three-dimensional woven textile preforms for composites’, Textile Research Journal, 81, 932–944,

Dow, N. F., Warp beam for triaxial weaving, US Patent No. 3884429,

Drechsler, K. (1999) ‘3-D textile reinforced composites for the transportation industry’, in Miravete A., 3-D textile reinforcements in composite materials, Cambridge, Woodhead, 43–6,

Gong, R.H. (2011) Specialist yarn and fabric structures, Cambridge, Woodhead,

Hetao Chu, Zhichun Zhang, Yanju Liu, Jinsong Leng, ‘Self-response multi-functional composite material base on carbon nanotube paper using deicing, flame retardancy, thermal insulation, and lightning-strike protection’,

Hu, H., Araujo, M.D., Fangueiro, R. (1996) ‘3D Technical Fabrics’, Knitting International, 1232, 55–57,

Hu, J.L. (2008) 3-D fibrous assemblies Properties, applications and modelling of three-dimensional textile structures, Cambridge, Woodhead,

Hu, H., Zhang, M., Fangueiro, R., and Araujo, M.D. (2010) ‘Mechanical Properties of Composite Materials Made of 3D Stitched Woven-Knitted Preforms’, Journal of Composite Materials, 44, 1753–1767,

Kadir Bilisik, Nesrin Sahbaz Karaduman and Nedim Erman Bilisik (2016), “3D Fabrics for Technical Applications”, in Non-woven Fabrics, Ed. Han Yong Jeon, IntechOpen, March, 24, ISBN: 978-953-51-2271-5,

Khokar, N. (1996) ‘3D fabric-forming process: Distinguishing between 2D-weaving, 3D-weaving and an unspecified non-interlacing process’, Journal of the Textile Institute, 87, 97–106,

King R.W. (1976), Apparatus for fabricating three-dimensional fabric material, US Patent No. 3955602,

Ko, F.K. (1989) ‘Three-dimensional fabrics for structural composites’, in Chou, T.W. and Ko, F.K., Textile Structural Composites, Amsterdam, Elsevier,

Ko, F.K. (1999) ‘3-D textile reinforcements in composite materials’, in Miravete A., 3-D textile reinforcements in composite materials. Cambridge, Woodhead, 9–42,

Kostar, T.D. and Chou, T.W. (1999) ‘Braided structures’, in Miravete A., 3-D textile reinforcements in composite materials, Cambridge, Woodhead, 217–240,

Kruse, F. and Gries, T. (2011) ‘Standardisation of production technologies for non-crimp fabric composites’, in Lomov S.V., Non-crimp fabric composites, Cambridge, Woodhead, 42–66,

Kyosev, Y. (2015) Braiding Technology for Textiles, Cambridge, Woodhead,

Liu Y.P. (2012) ‘A study of warp-knitted spacer fabrics as cushioning materials for human body protection’, PhD dissertation, The Hong Kong Polytechnic University,

Liu, Y. Araujo, M. D. and Hu, H (2015), Chapter 2: Advanced fibrous architectures for composites in aerospace engineering, in S. Rana and R. Fangueiro (Ed) – Advanced composite materials for aerospace engineering: Processing, properties and applications, Woodhead Publishing Ltd. , Cambridge, UK,

Long A.C. (2005) Design and manufacture of textile composites, Cambridge, Woodhead,

Lomov, S.V. (2011) Non-crimp fabric composites, Cambridge, Woodhead,

Lowe, J. (2005) ‘Aerospace applications’, in Long A.C., Design and manufacture of textile composites, Cambridge, Woodhead, 405–423,

Middendorf, P. and Metzner, C. (2011) ‘Aerospace applications of non-crimp fabric composites’, in Lomov S.V., Non-crimp fabric composites, Cambridge, Woodhead, 441–448,

Miravete, A. (1999) 3-D textile reinforcements in composite materials, Cambridge, Woodhead,

Potluri, P. and Nawaz, S. (2011) ‘Developments in braided fabrics’, in Gong, R.H., Specialist yarn and fabric structures, Cambridge, Woodhead, 333–353,

Raz, S. (1987) Warp Knitting Production, Melliand Textilberichte,

Rodolfo Amezcua , Ajay Shirolkar, Carolyn Fraze and David A. Stout (2016), ‘Nanomaterials for Cardiac Myocyte Tissue Engineering’, Nanomaterials, 6(7), 133; doi:10.3390/nano6070133,

Scardino, F. (1989) ‘An introduction to textile structures and their behaviour’, in Chou, T.W. and Ko, F.K., Textile Structural Composites, Amsterdam, Elsevier, 1–24,

Schlaich, J. Bergermann, R. Sobek, W (1989), Tensile Membrane Structures, Invited Lecture In The Lass-Congress, Madrid, September,

Schnabel, A. and Gries, T. (2011) ‘Production of non-crimp fabrics for composites’, in Lomov S.V., Non-crimp fabric composites, Cambridge, Woodhead, 3–41,

Spencer, D.J. (2001), Knitting Technology (Third Edition), Cambridge, Woodhead,

Stig, F. and Hallström, S. (2012) ‘Spatial modelling of 3D-woven textiles’, Composite Structures, 94, 1495–1502,

Stig, F. (2012), ‘3D-woven Reinforcement in Composites’, PhD dissertation, Royal Institute of Technology,

Sudesh Jayashantha Pothupitiya Gamage , Kihun Yang , Ramanaskanda Braveenth , Kanthasamy Raagulan , Hyun Suk Kim , Yun Seon Lee , Cheol-Min Yang, Jai Jung Moon and Kyu Yun Chai (2017), ‘MWCNT Coated Free-Standing Carbon Fiber Fabric for Enhanced Performance in EMI Shielding with a Higher Absolute EMI SE’, Materials, 10(12), 1350; doi:10.3390/ma10121350,

Tensinet (2004), European Design Guide for Tensile Surface Structures,

Tensinet (2013), Design recommendations for ETFE foil structures – Appendix A5 of European Design Guide for Surface Tensile Structures,

Tensinet (2016), Prospect for European guidance for the Structural Design of Tensile Membrane Structures,

Xiao Yu, Yongping Fu, Xin Cai, Hany Kafafy, Hongwei Wu, Ming Peng, Shaocong Hou, Zhibin Lv, Shuyang Ye, Dechun Zou (2013), Flexible fiber-type zinc–carbon battery based on carbon fiber electrodes, Nano Energy, Volume 2, Issue 6, November, Pages 1242-1248,

Xu, Y., Hu, H., and Yuan, X. (2011) ‘Geometrical Analysis of Co-woven-knitted Preform for Composite Reinforcement’, Journal of the Textile Institute, 102, 405–418.

Websites aconselhados:

CYTEC (aerospace materials),

Wikipedia, The Free Encyclopedia