The chemistry, manufacture, and tensile behavior of polyamide fibers  417

           Najafi M, Nasri L, Kotek R: 9 e high-performance nylon fibers in Structure and Properties of
               high-performance fibers, Series in textiles, Woodhead Publishing, pp 199e244.
           Najafi M, Nasri L, Kotek R: High-performance nylon fibres. In Bhat G, editor: Structure
               and properties of high-performance fibres, Amsterdam, 2017b, Woodhead, Elsevier
               (chapter 9).
           Najem JF: Study of take-up velocity in enhancing tensile properties of aligned electrospun nylon
               6 fibres (M.Sc. thesis). The Graduate Faculty of The University of Akron.
           Nelson WE: Nylon plastics technology, London, 1976, The Plastics and Rubber Institute.
           Northolt MG, Baltussen JJM, Schaffers-Korff B: Yielding and hysteresis of polymeric fibres,
               Polymer 36(18):3485e3492, 1995.
           Northolt MG, van der Hout R: Elastic extension of an oriented crystalline fibre, Polymer 26:
               310e316, 1985.
           Northolt MG, Roos A, Kampschreur JH: Birefringence, compliance, and viscoelasticity of
               poly(ethylene terephthalate) fibres, J Polym Sci B 27:1107e1120, 1989.
           Park JB, DeVries KL, Statton WO: Chain rupture during tensile deformation of nylon 6 fibres,
               J Macromol Sci Phys B15:205e227, 1978.
           Penel-Pierron L, Seguela R, Lefebvre JM, Miri V, Depecker C, Jutigny M: Structural and
               mechanical behavior of nylon 6 films. Part II: uniaxial and biaxial drawing, J Polym Sci B
               39:1224e1236, 2001a.
           Penel-Pierron L, Depecker C, Seguela R, Lefebvre JM: Structural and mechanical behavior of
               nylon 6 films. Part I: identification and stability of the crystalline phases, J Polym Sci B 39:
               484e495, 2001b.
           Penning JP, Ruiten JV, Brouwer R, Gabriëlse W: Orientation and structure development in melt-
               spun Nylon-6 fibres, Polymer 44(19):5869e5876, 2003.
           Polymer properties database, http://polymerdatabase.com/polymer_physics.
           Prevorsek D, Butler RH: Structure of Nylon-6 from analysis of viscoelastic properties, Int J
               Polym Mater Polym Biomater 1:251e277, 1972.
           Prevorsek DC, Harget PJ, Sharma RK: Nylon 6 fibres: changes in structure between moderate
               and high draw ratios, J Macromol Sci B8:127e156, 1973.
           Prevorsek DC, Butler RH, Lamb GE: Influence of fibre properties on wrinkling behavior of
               fabrics Part V: settability and measurement of the degree of set in yarns and filaments, Text
               Res J 45(7):535e540, 1975.
           Puffr R, Kubanek V: Lactam-based polyamides, Polymerization structure, vol. I. Bocca Raton,
               1991a, CRC Press.
           Puffr R, Kubanek V: Lactam-based polyamides, Modifications, technology applications, vol. II.
               Bocca Raton, 1991b, CRC Press.
           Richards AF: Nylon fibres. In McIntyre JE, editor: Synthetic fibres: nylon, polyester, acrylic,
               polyolefin, Boca Raton, 2005, CRC Press (chapter. 2).
           Richardson AW, Ward IM: Production and properties of fibres spun from nylon 6/lithium
               chloride mixtures, J Polym Sci B19:1549e1565, 1981.
           Sakurada I, Kaji K: Relation between the polymer conformation and the elastic modulus of the
               crystalline region of polymer, J Polym Sci C 31:57e76, 1970.
           Saskiawan I: Biosynthesis of polyamide 4, a biobased and biodegradable polymer, Microbiol
               Indones 2(3):119e123, 2008.
           Schultze-Gebhart F: Influence of different drawing ratios on stress-strain diagram of nylon-6
               filaments, Acta Polym 28:467, 1977.
           Schultze-Gebhart F, Herliger KH: Fibres Survey. In , Weinheim, 2008, Wiley-VCH Verlag
               GmbH, pp . Ullmann’s fibres, vol. 1. Weinheim, 2008, Wiley-VCH Verlag GmbH (chapter 1).