In recent years there has been a steady increase in the demands made on the properties of function, sports and workwear textiles. In order to achieve a cooling effect, special textile constructions are developed, which increase the sweat evaporation and thus the cooling of the body. But how can the cooling effect of intelligent textiles be measured?
There are already various methods to characterize such properties. Until now they are not linked to thermophysiological methods and models, which are capable to objectively determinate comfort levels. The desire here is for a practical method that not only takes account of physical measurement data, but also the resulting cooling effect observed in controlled wearer trials in a climate chamber.
This process is however very time-consuming, while also requiring a large group of test subjects, so ultimately leading to higher product prices. In short: A level of effort that is neither affordable, nor feasible for small and medium-sized enterprises.
With the WATson heat loss tester Hohenstein Institut für Textilinnovation (HIT) has now developed a new physical measuring method for determining the cooling performance of textiles – heat release tester WATson. Until now there is no correlation of the data obtained using WATson with actual wearer trials and thermophysiological models.
The textiles industry however needs such an evaluation system for the goal-oriented development of cooling textiles – in other words a system capable of measuring the quality of a cooling process, e.g. temperature range, duration, impact on the heat / humidity balance of the wearer.
With these requirements in mind, HIT then embarked on a research project to develop a thermophysiological evaluation system for the textiles industry. The aim here is for the new evaluation system to compare the results of the WATson heat loss tester with data from experiments on subjects in a climate chamber under different ambient conditions.
