References
- http:/www.wool.com/Fibre-Selection_Woolcheque_ Wool-Characteristics_Wool-diameter.htm
- R. Postle, G. A. Carnaby, and S. de Jong, "The Mechanics of Wool Structures", John Wiley & Sons, p.24, 1988.
- E. G. Bendit, A Quantitative X-Ray Diffraction Study of the Alpha - Beta Transformation in Wool Keratin, Text. Res. J., 30, 547-555(1960). https://doi.org/10.1177/004051756003000801
-
A. R. B. Skertchley and H. J. Woods, The
${\alpha}-{\beta}$ Transformation in Keratin, J. Text. Inst., 51, T517-527(1960). https://doi.org/10.1080/19447026008662499 - J. Cao and A. Y. Bhoyro, "Proc. the 3rd Asian Textile Conf.", Hong Kong, p.201, 1995.
- W. V. Bergen, "Wool Handbook Vol 1", 3rd Ed., John Wiley & Sons, pp.189-197, 1963.
- A. J. Farnworth and J. Delmenico, "Permanent Setting of Wool", Merrow, pp.3-21, 1971.
- http://www.csiro.au/science/OPTIMfineOPTIMmax.html
- N. Norio, Optim/Odin-New Wool Material Having Polygonal Cross-Sections, J. Textile Machinery Soc. Japan, 52(8), 348-351(1999). https://doi.org/10.4188/transjtmsj.52.8_P348
- S. J. Kim, Development of High Sensible Fabrics Using Worsted Yarn Drawing Technology, J. Korean Soc. Emotion Sensibility, 10(4), 623-629(2007).
- J. S. Church, G. L. Corino, and A. L. Woodhead, The Effects of Stretching on Wool Fibres as Monitored by FT-Raman Spectroscopy, J. Molecular Structure, 440, 15-23(1998). https://doi.org/10.1016/S0022-2860(97)00227-5
- R. W. Burley, "Proc. 1st Int. Wool Text. Conf.", Australia, D88, 1955.
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