Thermo‐physiological comfort of a PES fabric with incorporated activated carbon

Abstract

PurposeThe purpose of this paper is to consider the thermal‐physiological comfort performances of a sport shirt made of a polyester (PES) fabric with incorporated activated carbon. After having characterized the modified PES fabric in Part I, the results of a wear trial campaign are shown and discussed in this work.Design/methodology/approachThe wear trials have been carried out under a controlled physical activity. A short‐and‐intense effort and an intermittent effort of milder intensity were carried out twice by each volunteer: once wearing a shirt made of the modified PES fabric and the other one wearing an analogous shirt made of a conventional PES fabric.FindingsWhen sweating was moderate, the modified PES shirt was judged as more comfortable on the average. As the effort became harder, the modified PES fabric turned out to be less comfortable than the conventional one. In the final recovery stage, the conventional PES was still more comfortable than the modified PES. This behaviour was justified according to the findings of Part I: at the beginning, the prevailing effect was the adsorbing ability of carbon particles that buffer sweat impulses, giving the user a pleasant dry sensation. Then, when sweating became intense, the lower evaporative cooling of the modified PES fabric became the key factor governing the physiological comfort of the garment. This is confirmed by a slightly higher skin temperature measured during the modified PES fabric trials. Finally, a post‐exercise chill sensation was felt with the modified PES fabric, due to a longer drying time.Originality/valueThe paper presents a comprehensive study of the thermo‐physiological comfort of a fabric containing activated carbon particles.