ASIA'S PREMIERE UNDERSCARVES WITH HIGH-TECH FABRIC, DRICHILL
SUPER HI-TECH PREMIUM DRICHILL FABRIC
The comfort of Innersejuk's collection is definitely from Drichill premium fabricated 'improvements' from time to time for comfortable use in any seasons.
Anti Bacterial fabric resistant to bacterial allergy or infection. It also has the capability to reduce bacteria induced odor.
Drichill has ability to stretch 4-ways for maximum comfort.
Drichill fabric releases heat 10 times faster than other normal fabric.
Combination of Drichill and synthetic yarn is longer lasting than normal fabric.
Drichill material has been certified and scientifically proven by local fabric experts.
Drichill fabric wicks away sweat and moisture. Drichill will dries 10 times faster than cotton
STRIDE (MInistry of Defence Malaysia) main function is to carry out programs of research and development. Drichill material from Innersejuk has been recognized & proven to be military-level and suitable for active women that requires maximum comfort.
UITM is the most advanced textile laboratory known in Malaysia. Drichill material from Innersejuk has done a valid laboratory test by fabric experts at local universities before penetrating the fashion veil in Malaysia. Drichill material has been shown to be cool and able to inhibit bacterial breeding in the veil.
SIRIM (Standard and Industrial Research Institute of Malaysia) is a premier industrial research and technology organisation in Malaysia. Innersejuk is the only material for underscarves has been certified by SIRIM.
Drichill fabric wicks away sweat and moisture. The fabric will dry faster in having sweating conditions. Sweat can evaporate directly into the air to prevent clothes from becoming drenched.
Drichill™ innerwear is invented to stay odourless after several days of use. This is due to the quick dry technology that inhibit the growth of bacteria on the fabric, keeping your innerwear fresh for several days without washing.
FUNCTION OF DRICHILL
We have conducted experiments comparing Drichill against other materials to better understand its key function.