Moisture Wicking T Shirts From Zorrel Australia
Simple Talk About Tri-Reg® High performance Fabrics
Tri-Reg® is Zorrel's proprietary three layer, three performances, and three technologies all in one material - tri-regulating. Zorrel offers Tri-Reg® engineering in 2 versions:
iron man t shirt
1. Cotton Face Tri Reg®: first-class for every day wear as well as sports such as golf tramping, and work general outdoor employment situations.
2. Poly Tri-Reg®: offers a lighter weight material more than suitable for situations requiring extreme moisture transport. This fabric is best for heavy work out, cycling or work situations where the wearer will be sweating copiously from a high level of exertion through moisture wicking.
The Three Layers of Tri-Reg® - Tri-Reg® employs a unparalleled plaiting technology that joins the tree layers together without bonding them. This allows wet to pass through the garment to the surface and provide air to permeate the textile to cool down and dry the skin.
performance clothing
Performance Clothing with Moisture Wicking Technology
Cotton Tri Reg® from Zorrel Australia
The Skin Side Layer: is made up microfiber polyester to pull and transport moisture away from the skin. It is flat and un-brushed.
The Centre Level: is made of encapsulated vacuous core yarns. These yarns look like a drink straw. They are hollow in the center and have dead air space trapped in them. This helps make body heat regulating and wind resistance (see below).
The External or Face Level: The surface of the textile is brushed or peached cotton. The surface in darker colours is remindful of fine suede.
Iron Man T Shirt to the Local Gym
Poly Tri-Reg® from Zorrel Autralia
The Skin Side Layer: is made up microfiber polyester to pull and conveyance wet away from the skin. In Poly Tri-regulator, this surface is fleeced to enhance wet carry from the skin.
The Middle Layer: is made of encapsulated hollow core yarns these yarns look like a drinking straw. They are hollow in the center and have dead air space trapped in them. This helps create body heat regulation and wind resistance (see below).
o The Outside or Face Layer: The surface of the textile is flat slightly shiny polyester. This surface allows the wet to evaporate quickly and the material to dry very quickly.
The Three Embedded Technologies of Tri-Reg®
Zorrel Tri-Reg® offers three technologies built into the textile.
1. Moisture Carry - Moisture conveyance or wicking is defined as capillary action which moves wet from where it is abundant (near the skin) to where there is little or no moisture (on the surface).
In everyday terms, this means that wet is picked up from the skin and transported to the surface where it is dispersed and dries through with evaporation a process called moisture wicking.
2. Our high performance clothing incorporates wind Resistance - Wind resistance differs from wind blocking in that Tri-Reg® allows some air to penetrate through the garment to cool and dry the skin. To achieve total wind block would mean the fabric would require a membrane bonded to the material. This would block air passage totally, but would also have the adverse affect of blocking moisture inside the garment not allowing it to pass through and evaporate.
3. Body Heat Regulation (BHR) - In simple terms BHR means that the textile consistently tries to counterbalance the temperature on the inside and the outside of the clothe to equilibrium point in the middle.
As a specific illustration, think of a bike rider like am iron man competitor who is training for a road race on a cold morning. The rider is building up body heat inside the apparel, and probably as well sweating from exertion. While low temperature air outside would ordinarily chill a wet body, the 3 layer construction performs as follows:
It allows heat and wet to go to the surface and disperse and the hollow center yarns work to produce balance of temperature keeping the wearer consistently at a comfortable body temperature.
Please consult the Zorrel Australia Collections Moisture Wicking High Performance fo the Iron man in us all .