502                             Handbook of Properties of Textile and Technical Fibres

         Buckley CP, Jones DC, Jones DP: Hot-drawing of poly(ethylene terephthalate) under biaxial
             stress: application of a three-dimensional glass-rubber constitutive model, Polymer 37:
             2403e3414, 1996.
         Burgoyne CJ, Merii AL: On the hydrolytic stability of polyester yarns, J Mater Sci 42:
             2867e2878, 2007.
         Cakmak M, Lee SW: Molecular mechanism of neck formation in uniaxially stretched
             poly(ethylene naphthalate) films, Polymer 36:4039e4054, 1995.
         Cao J: Spinning the supercooled PET to obtain highly oriented and crystallized PET fibers at low
             speeds, J Appl Polym Sci 102:3078e3082, 2006.
         Cao J, Kikutani T, Takaku A, Shimizu J: Nonisothermal orientation-induced crystallization in
             melt spinning of polypropylene, J Appl Polym Sci 37:2683e2697, 1989.
         Chailleux E, Davies P: A Non-linear viscoelastic viscoplastic model for the behaviour of
             polyester fibres, Mech Time Depend Mater 9:147e160, 2005.
         Chang TM: Kinetices of thermally induced solid state polymerization of PET, Polym Eng Sci 10:
             364e368, 1970.
         Chang S: Solid state polymerization of poly(ethylene terephtalate), J Appl Polym Sci 28:
             3289e3300, 1983.
         Chen JW, Chen LW: Effect of TPA addition at the initial feed on DEG formation in the
             preparation of PET and the kinetics of ethylene glycol with protons in the etherification
             reaction, J Polym Sci A1 Polym Chem Ed 36:3073e3080, 1998.
         Chen JW, Chen LW: Effect of TPA addition at the initial feed on DEG formation in the
             preparation of PET and the kinetics of ethylene glycol with protons in the etherification
             reaction, J Polym Sci A Polym Chem 36:3081e3087, 1998.
         Cho DH, Yu WR, Youk JH, Yoo JH: Formation of micro-crystals in poly(ethylene tere-
             phthalate) fiber by a short heat treatment and their influence on the mechanical properties,
             Eur Polym J 43:3562e3572, 2007.
         Christensen RM: Theory of viscoelasticty, an introduction, New York, 1982, Academic Press.
         Cohen A: A Padé approximant to the inverse Langevin function, Rheol Acta 30:270e273, 1991.
         Cole KC, Ajji A, Pellerin E: New insights into the development of ordered structure in poly(-
             ethylene terephthalate). 1. Results from external reflection infrared spectroscopy, Macro-
             molecules 35:770e784, 2002.
         Cook JG. In Handbook of textile fibers, ed 4, 1968, pp 358e361.
         Cook R: Computer simulation of polymeric materials. I. Stress-strain behavior, J Polym Sci B
             Polym Phys 26:1337e1347, 1988.
         Cook JG, Huggill HPW, Lowe AR: Br. Patent GB 604073, 1946.
         Cran GW: Moment estimators for the 3-parameter Weibull distribution, IEEE Trans Reliab 37:
             360e363, 1988.
         D’Allo CA: The chemical and related characteristics of polyester fibres, 9th Shirley Institute
             Seminar, Polyest Text, May, 1977:55e84, May, 1977.
         Dargent E, Denis G, Caron C: Effect of water molecules on crystallization during unixial
             drawing of poly(ethylene terephthalate) films, J Appl Polym Sci 77:1056e1066, 2000.
         Daubeny RDP, Bunn CW, Brown CJ: The crystal structure of polyethylene terephtalate, Proc
             Roy Soc A Lond 226:531e542, 1954.
         Davies T, Rosa-fox ND, Esquivias L: The kinetics of the hydrolysis of polyethyleneterphtalate
             film, J Phys Chem 66:175e176, 1962.
         Davis GW, Talbot JR: Encyclopedia of polymer science and engineering. ed 2 (vol. 12). New
             York, 1988, Wiley, pp 118e193.
         Desai CS, Siriwardane HJ: Constitutive laws for engineering material, with emphasis on
             geological materials, Englewood Cliffs, 1984, Prentice-Hall, pp 173e187.