98                              Handbook of Properties of Textile and Technical Fibres

         Jones DC, Carr CM, Cooke WD, Lewis DM: Investigating the photooxidation of wool using FT-
             Raman and FT-IR spectroscopies, Text Res J 68:739e748, 1998. https://doi.org/10.1177/
             004051759806801007.
         Kawabata S, Niwa M, Muraki C, Inoue M, Uyama M, Rengasamy RS: Anisotropy in the me-
             chanical and thermal properties of wool fibres. In Proc. 9th Int. Wool Text. Res. Conf.,
             Beilla, 1995, pp 124e133.
         Kettlewell R, De Boos A, Jackson J: Commercial shrink-resist finishes for wool. In Paul R,
             editor: Functional finishes for textiles e improving comfort, performance and protection,
             Cambridge, 2015, Woodhead Publishing, pp 193e226.
         King AL, Millington KR: Trace metals can affect hydroxyl radical production and yellowing of
             photo-irradiated wool, J Text Inst 104:648e654, 2013. https://doi.org/10.1080/
             00405000.2012.755296.
         K€ orner A: The influence of solvent extraction on cell membrane lipids and implications for wool
             fibre properties. In Proc. 8th Int. Wool Text. Res. Conf., Christchurch, 1990, pp 387e397.
         Kure JM, Pierlot AP, Russel IM, Shanks RA: The glass transition of wool: an improved
             determination using DSC, Text Res J 67:18e22, 1997.
         Lee JS, Finkner MD: Some physical properties of weathered wool, Text Res J 37:211e220,
             1967. https://doi.org/10.1177/004051756703700307.
         Leeder JD: The cell membrane complex and its influence on the properties of the wool fibre,
             Wool Sci Rev 63:3e35, 1986.
         Leeder JD, Marshall RC: Readily-extracted proteins from Merino wool, Text Res J 52:245e249,
             1982. https://doi.org/10.1177/004051758205200403.
         Lewis DM: Damage in wool dyeing, Revi Prog Colouration 19:49e56, 1989.
         Lewis DM: The effect of reactive dyes on damage in wool dyeing, J Soc Dyers Col 106:
             270e274, 1990.
         Lewis DM: Wool dyeing, Bradford, 1992, The Society of Dyers and Colourists.
         Lin Z, Yu N, Li Y, Yang Y, Peng Z, Wang B, Hu Z: Effect of consolidation with Alanine and
             Glutaraldehyde on the properties of fragile wool fabrics, Adv Mater Res 887e888:
             882e885, 2014.
         Liu H, Yu W: Study of the structure transformation of wool fibers with Raman spectroscopy,
             J Appl Polym Sci 103:1e7, 2007.
         Long L, Lei S, Guiqin J: Properties of wool fibers treated under high-temperature water and
             steam, J Appl Polym Sci 109:852e858, 2008.
         Maclaren JA, Milligan B: Wool science: the chemical reactivity of the wool fibre, Marrickville,
             NSW, 1981a, Science Press.
         Maclaren JA, Milligan B: Heat damage. In Wool science: the chemical reactivity of the wool
             fiber, Marrickville, NSW, 1981b, Science Press, pp 80e81.
         Mason P: The fracture of wool fibers, part I: the viscoelastic nature of the fracture properties,
             Text Res J 34:747e754, 1964.
         Maxwell JM: Use of the scanning probe microscope to measure selected physical properties of
             the constituent cellular components of biological fibres (Ph.D.). Melbourne, 2002, Uni-
             versity of Melbourne.
         Maxwell JM, Huson MG: Scanning probe microscopy examination of the surface properties of
             keratin fibres, Micron 36:127e136, 2005.
         McPhee JR: The reaction of wool with sodium hydroxide in concentrated salt solutions, Text Res
             J 29:303e310, 1959. https://doi.org/10.1177/004051755902900403.
         McPhee JR: Reaction of wool with oxidizing agents in concentrated salt solutions, Text Res J 30:
             349e357, 1960a. https://doi.org/10.1177/004051756003000503.