Page 532 - Handbook of Properties of Textile and Technical Fibres
P. 532
Tensile failure of polyester fibers 505
Hall IH: Viscoelasticity of textile fibers at finite strains, J Polym Sci A2 Polym Phys 5:
1119e1144, 1967.
Harland WG, Khadr MM, Peters RH: Morphological parameters and tensile properties of linear
polyethylenes, Br Polym J 7:175e193, 1975.
Haward RN: Strain hardening of thermoplastics, Macromolecules 26:5860e5869, 1993.
Haward RN: The application of a Gauss-Eyring model to predict the behavior of thermoplastics
in tensile experiments, J Polym Sci B Polym Phys 33:1481e1494, 1995.
Haward RN: The application of non-Gaussian chain statistics to ultralow density polyethylenes
and other thermoplastic elastomers, Polymer 40:5821e5832, 1999.
Haward RN, Thackray G: The use of a mathematical model to describe isothermal stressestrain
curves in glassy thermoplastics, Proc Roy Soc A302:453e472, 1968.
Haward RN, Murphy BM, White EFT: Relationship between compressive yield and tensile
behavior in glassy thermoplastics, J Polym Sci A2 9:801e814, 1971.
Hearle JWS, Lomas B, Cooke WD: Atlas of fibre fracture and damage to textiles, Boca Raton,
1998, C. R. C.
Heuvel HM, Huisman R: Effect of winding speed on the physical structure of as-spun poly
(ethylene terephthalate) fibers, including orientation-induced crystallization, J Appl Polym
Sci 22:2229e2243, 1978.
Higashioji T, Bhusdan B: Creep and shrinkage behavior of improved ultrathin polymeric film,
J Appl Polym Sci 84:1477e1498, 2002.
Higuchi K, Takai H: Stress e strain diagram, Young’s modulus, and Poisson’s ratio of textile
fibers, J Text Mach Soc Jpn 7:4e12, 1961.
Hillmansen S, Haward RN: Adiabatic failure in polyethylene, Polymer 42:9301e9312, 2001.
Hirahata H, Seifert S, Zachmann HG, Yabuki K: On-line measurements of orientation induced
crystallization of PET during high speed spinning, Polymer 37:5131e5137, 1996.
Hobbs T, Lesser AJ: In situ drawing of high molecular weight poly(ethylene terephthalate) in
subcritical and supercritical CO 2 , J Polym Sci B Polym Phys 37:1881e1891, 1999.
Hongming M, et al.: Structure and dynamic mechanical properties of poly(ethylene
terephthalate-co-4,4!-bibenzoate) fibers, Polymer 48:1651e1658, 2007.
Hosemann R: The paracrystalline state of synthetic polymers, J Polym Sci C 50:265e281, 1975.
Hovenkamp SG, Munting JP: Formation of diethylene glycol as a side reaction during pro-
duction of polyethylene terephthalate, J Polym Sci Polym Chem Ed 8:679e682, 1970.
Huang B, Ito M, Kanamoto T: Deformation mechanism of amorphous poly(ethylene
terephthalate) as a function of molecular weight and entanglements, Polymer 35:
1210e1215, 1994.
Huang B, Tucker PA, Cuculo JA: High performance poly(ethylene terephthalate) fibre prop-
erties achieved via high speed spinning with a modified liquid isothermal bath process,
Polymer 38:1101e1110, 1997.
Huang JM, Chu PP, Chang FC: Conformational changes and molecular motion of poly(ethylene
terephthalate) annealed above glass transition temperature, Polymer 41:1741e1748, 2000.
Hughes OR, Kurschus DK, Saw CK: Generation of a fibrillar core in PET fiber by cold drawing,
J Appl Polym Sci 74:2335e2352, 1999.
Hutchinson JW, Neale KW: Neck propagation, J Mech Phys Sol 31:405e426, 1983.
Illers KH, Breuer H: Molecular motions in polyethylene terephthalate, J Colloid Sci 18:1e31,
1963.
Ishibashi M: Polyether-ester copolymer prepared from p-g-hydroxypropoxy benzoate and bis-
b-hydroxyethyl terephthalate, J Polym Sci A2:4361e4366, 1964.
Ito M, et al.: Dielectric relaxations in linear aliphatic polyesters, J Polym Sci Phys 15:605e616,
1977.
