The objective was to adapt Standard test methods for determining properties of apparel fabrics so these properties are a better reflection of fabrics when used in end-products, while retaining a controlled environment and thus allowing fabric comparisons2. Test methods in which properties are compared when fabrics are dry and damp, and/ or in which they are in multiple-layered assemblies have been developed and applied to a range of fabrics.
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Wilson, C.A. , Bevin, N.K., Laing, R.M., and Niven, B.E., Solar Protection - Effect of Selected Fabric and Use Characteristics on Ultraviolet Transmission, Textile Res. J. 78(2), 95- 104 (2008).
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House, J.R. , Squire, J.D., and Staples, R., Optimising the Number of Layers in Firefighters’ Hoods, Int. J. Clothing Sci. Technol. 14(2), 111-118 (2001).
33.
Gore, S.E., Laing, R.M., Wilson, C.A., Carr, D.J., and Niven, B.E., Standardizing a Pre-treatment Cleaning Procedure and Effects of Application on Apparel Fabrics, Textile Res. J. 76(6), 455-464 (2006).
34.
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42.
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47.
Wilson, C.A. , Laing, R.M., and Tamura, T., Intrinsic ‘Dry’ Thermal Resistance of Dry Infant Bedding During Use - Part 2 Estimated Vs Measured, Int. J. Clothing Sci. Technol. 16(3), 310-323 (2004).
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