A Perfect Symbiosis
Moisture transport as a result of tiny fibrils.
In contrast to synthetic fibers, with reduced wicking properties, TENCEL® offers unique moisture transport. The fibril structure of TENCEL® supports this natural fiber property, guaranteeing optimum conditions for the skin. Synthetic fibers cannot absorb moisture into the inside of the fiber.inside of the fiber.
The illustration shows that in contrast to cotton, TENCEL® controls and regularly absorbs moisture. Moreover TENCEL® absorbs 50% more moisture than cotton. By contrast polyester does not absorb moisture.
The graph is based on tests using an electron microscope by M. Abu Rous et al., AUTEX World Conference, 2005
The water is colored in blue
- Cotton
- TENCEL®
- Polyester
The comparision provides you with reassurance
Moisture transport is determined by climate. Depending upon climate conditions, TENCEL® either absorbs or releases moisture. Compared to other fibers, TENCEL® features the highest moisture absorption-rate: with air humidity at 65%, TENCEL® still has unused capacity to absorb moisture from the skin.
Moisture (Vapor) Management with extreme air humidity
The graph shows the increase of moisture in a textile when the textile is moved from a relative humidity of 65% to a relative humidity of 100%. The moisture refers to the weight of the dry textile.
News
Lenzing – the leader in innovation for Modal fibers – presents a new micro fiber: MicroModal® Edelweiss
At the spring trade shows in Paris the Modal fiber experts, Lenzing, are presenting the newly developed “eco MicroModal®” fiber, produced using Edelweiss technology.
Lenzing AG Takes Legal Action Against the Violation of its Lyocell Patents
Lenzing AG, the global market leader for man-made cellulose fibers and the world’s only large-scale industrial provider of Lyocell/TENCEL® fibers, is taking legal action against the violation of its Lyocell patents.
