Properties of wool                                                 95

           Cookson PG, Fincher KW, Brady PR: Minimising the impairment of the physical properties of
               wool during dyeing by restricting the level of permanent set, J Soc Dyers Col 107:
               135e138, 1991.
           Cortez J, Bonner P, Griffin M: Application of trans e glutaminase in the modification of wool
               textiles, Enzyme Microb Technol 34:64e72, 2004.
           CSIRO: OPTIMTM fibre processing, 2011. Available at: http://csiropedia.csiro.au/optim-fibre-
               processing/.
           Deng C, Wang L, Wang X: The limiting irregularity of single wool fibers, Fibers Polym 10:
               246e251, 2009.
           Dhingra RC, Liu D, Postle R: Measuring and interpreting low-stress fabric mechanical and
               surface properties: Part II: application to finishing, drycleaning, and photodegradation of
               wool fabrics, Text Res J 59:357e368, 1989. https://doi.org/10.1177/004051758
               905900608.
           Dobb MG: Electron diffraction studies of keratin cells, J Text Inst 61:232e234, 1970.
           Dunn LA, Weatherall IL: Longitudinal variation in the stress-strain properties of wool fibers,
               J Appl Polym Sci 44:1275e1279, 1992.
           Dusenbury JH, Wakelin JH: Effects of crimp and cross-sectional area on the mechanical
               properties of wool fibers, Text Res J 28:989e1004, 1958.
           Engel L, Klingele H, Ehrenstein GW, Schaper H: Fractures, An atlas of polymer damage e
               surface examination by scanning electron microscopy, Munich, 1981, Wolfe Science
               Books, p 138.
           Evans NA, Waters PJ, Wilshire JFK: Photoprotection of wool with a sulfonated 2-(2ʹ-hydrox-
               yaryl)-2H-benzotriazole UV absorber, Text Res J 56:203e206, 1986a.
                                                                              0
           Evans NA, Rosevear J, Waters PJ, Wilshire JFK: Photoprotection of wool with sulfonated 2-(2 -
               hydroxyaryl)-2H-benzotriazoles, Polym Deg Stab 14:263e284, 1986b.
           Evans TF: Properties of apparel wools, V. Dependence of the physical properties of single fibers
               on diameter and crimp, Text Res J 24:637e643, 1954.
           Feldtman HD, Leeder JD: Effects of polar organic solvents on the abrasion resistance of wool
               fabric, Text Res J 54:26e31, 1984.
           Feldtman HD, Leeder JD, Rippon JA: The role of fibre structure in wool fibre and fabric per-
               formance. In Postle R, Kawabata S, Niwa M, editors: Proceedings of the AustraliaeJapan
               bilateral science and technology symposium on objective evaluation of apparel fabrics,
               Osaka, Text. Mach. Soc., 1983, pp 125e134.
           Feughelman M: A two-phase structure for keratin fibres, Text Res J 29:223e228, 1959.
           Feughelman M: The mechanical properties of permanently set and cysteine reduced wool fibres
               at various relative humidities and the structure of wool, Text Res J 33:1013e1022, 1963.
           Feughelman M: Mechanical hysteresis in wool keratin fibers, J Macromol Sci Phys Ed B7:
               569e582, 1973.
           Feughelman M: The physical properties of alpha-keratin fibers, J Soc Cosmet Chem 33:
               385e406, 1982.
           Feughelman M: A note on the water-impenetrable component of a-keratin fibres, Text Res J 59:
               739e742, 1989.
           Feughelman M: A model for the mechanical properties of the a-keratin cortex, Text Res J 64:
               236e239, 1994.
           Feughelman M: Mechanical properties and structure of alpha-keratin fibres. Wool, human hair
               and related fibres, Sydney, 1997, UNSW Press.
           Feughelman M: Natural protein fibres, J Appl Polym Sci 83:489e507, 2002.
           Feughelman M, Druhala M: The lateral mechanical properties of alpha-keratin. In Proc. 5th Int.
               Wool Text. Res. Conf., Aachen, 1975, pp 340e349.