CSIRO Division of Wool Technology, Sydney Laboratory, 1–11 Anzac Avenue, Ryde, NSW 2112, Australia
Abstract:
1. 1. The detection of dampness in hygroscopic materials has been investigated both by subjective tests and by the application of a model of the physical mechanisms involved.
2. 2. Subjects were asked to rate the degree of dampness of a range of materials of different moisture contents after a short period of contact with the inner forearm.
3. 3. Skin and fabric inner surface temperatures were recorded
4. 4. It was found that highly hygroscopic wool fabrics were perceived as being dryer and maintained a higher temperature at the skin surface than polyester, a less hygroscopic fabric, during fabric-skin contact.
5. 5. A physical model of the sorption/desorption process in hygroscopic materials has been developed from knowledge of fibre sorption kinetics and has been used to study the physical processes which take place at the skin-fabric interface during transient contact.
6. 6. These predictions agree well with the subjective responses and the measured temperatures.
Author Keywords: Dampness; fabrics; hygroscopic; mechanism; skin temperature